Kateryna O. Ivanenko – candidate of physical and mathematical sciences, Institute of Macromolecular Chemistry of NAS of Ukraine, Kyiv, Ukraine; Ningbo Sino-Ukrainian New Materials Industrial Technologies Institute, Kechuang building, N777, Zhongguan road, Zhenhai district, Ningbo, 315211, China
The book considers the patterns of formation of the structure and properties of sp2-hybridized carbon nanoformations: nanotubes (CNTs), expanded graphite (EG), graphene nanoparticles and composite materials (CM) with their participation with carbon, polymer and ceramic matrices, including EG-CNTs composite, as well as the mechanism of influence of low content of nanosized fillers on the functional and operational characteristics of the created nano-CM. It is experimentally confirmed that the mechanism of strengthening of low-filled matrices consists in creation by a grid of CNTs of layers of the matrix in a nanosized state with improved characteristics. The monograph is intended for specialists in the field of physical and chemical material science.
СHAPTER 1
2. M.S. Dresselhaus and G. Dresselhaus, Advances in Physics. 51 (1), 1 (2002).
3. P. R. Wallace, Phys. Rev. 71, 622 (1947).
4. Coulson, C. A., Nature, Lond., 159, 265 (1947).
5. F. J. Corbato, Ph.D. Th esis, MIT, Cambridge, Massachusetts, 1956.
6. F. J. Corbato, in: Proceedings of the Th ird Conference on Carbon (Pergamon Press, New York, 1959), p. 173.
7. F. Bassani and G. Pastori Parravicini, Nuovo Cim. B. 50, 95 (1967).
8. E. Doni and G. Pastori Parravicini, Nouvo Cim. B. 64, 117 (1969).
9. G.S. Painter and D.E. Ellis, Phys. Rev. B. 1, 4747 (1970).
10. J.W. McClure, Phys. Rev. 108, 612 (1957).
11. J.W. McClure, Phys. Rev. 119, 606 (1960).
12. I.L. Spain, in: Chemistry and Physics of Carbon, edited by P. L. Walker (Marcel Dekker, New York, 1973), vol. 8, pp. 105, 110.
13. J.W. McClure, Carbon, 7, 425 (1969).
14. L. Samuelson, I. P. Batra and C. Roetti, Solid St. Commun. 33, 817 (1980).
15. G. Dresselhaus and M.S. Dresselhaus, Phys. Rev. A. 140, 401 (1965).
16. L. G. Johnson and G. Dresselhaus, Phys. Rev. B. 7, 2275 (1973).
17. G. Dresselhaus, S.Y. Leung, M. Shayegan and T.C. Chieu, Synth. Metals. 2, 321 (1980).
18. W. van Haeringen, and H.-G. Junginger, Solid St. Commun. 7, 1723 (1969).
19. H. Nagayoshi, M. Tsukada, K. Nakao, and Y. Uemura, J. Phys. Soc. Japan. 35, 396 (1973).
20. H. Nagayoshi, K. Nakao and Y. Yemura, J. Phys. Soc. Japan. 41, 1480 (1976).
22. H. Nagayoshi, J. Phys. Soc. Japan, 43, 760 (1977).
23. T. Inoshita, K. Nakao and H. Kamimura, J. Phys. Soc. Japan. 43, 1237 (1977).
24. N. A. W. Holzwarth and S. Rabii, Mater. Sci. Engng. 31, 195 (1977).
25. N. A. W. Holzwarth, L. A. Girifalco and S. Rabii, Phys. Rev. B. 18, 5206 (1978).
26. N. A. W. Holzwarth, S. Rabii and L. A. Girifalco, , Phys. Rev. B. 18, 5190 (1978).
27. T. Ohno, K. Nakao and H. Kamimura, J. Phys. Soc. Japan. 47, 1125 (1979).
28. J. W. McClure, in: Proceedings of the International Conference on Semimetals and Narrow Gap Semiconductors, edited by D. L. Carter and R. T. Bate (Pergamon Press, New York, 1971), p. 127.
29. D. E. Soule, J. W. McClure and L. B. Smith, Phys. Rev. A. 134, 453 (1964).
30. D. E. Soule, IBM Jl Res. Dev. 8, 268 (1964).
31. S. Williamson, S. Foner and M. S. Dresselhaus, Phys. Rev. A. 140, 1429 (1965).
32. J. A. Woollam, Physics Lett. A. 32, 115 (1970).
33. J. D. Cooper, J. Woore and D. A. Young, Nature, Lond. 225, 721 (1970).
34. W. W. Toy, M. S. Dresselhaus and G. Dresselhaus, Phys. Rev. B. 15, 4077 (1977).
35. I. L. Spain, in: Proceedings of the International Conference on Semimetals and Narrow Gap Semiconductors, edited by D. L. Carter and R. T. Bate (Pergamon Press, New York, 1971), p. 177.
36. D. Z. Tsang and M. S. Dresselhaus, Carbon. 14, 43 (1976).
37. S. Ono, J. Phys. Soc. Japan. 40, 498 (1976).
38. T. Tsuzuku, Carbon. 17, 293 (1979).
39. N.H. Saito and T. Tsuzuku, Carbon. 11, 469 (1973).
40. D.E. Nixon and G. S. Parry, J. Phys. D. 1, 291 (1968).
41. R.W.G. Wyckoff , Crustal Structures (Interscience, New York, 1964), Vol. 1.
42. A. Herold, in: Physics and Chemistry of Materials with Layered Structures, edited by F. Lévy (Reidel, Dordrecht, 1979), vol. 6, p. 323.
43. D.E. Nixon, G. S. Parry and A. R. Ubbelohde, Proc. R. Soc. A. 291, 324 (1966).
44. A.W. Syme-Johnson, Acta crystallogr. 23, 770 (1967).
45. G.R. Hennig, in: Progress in Inorganic Chemistry, edited by F.A. Cotton (Interscience, New York, 1959), vol. 1, p. 125.
46. G.S. Parry, Mater. Sci. Engin. 31, 99 (1977).
47. C. Underhill, T. Krapchev and M. Dresselhaus, Synth. Metals. 2, 47 (1980).
48. D. Guerard, G. M. T. Foley, M. Zanini and J. E. Fischer, Nuovo Cim. B. 38, 410 (1977).
49. W. Rudorff and W. F. Siecke, Chem. Ber. 91, 1348 (1958).
50. H. Fuzellier, J. Melin and A. Herold, Carbon. 15, 45 (1977).
51. J. Melin and A. Herold, Carbon. 13, 357 (1975).
52. T. Sasa, Y. Takahashi and T. Mukaibo, Bull. chem. Soc. Japan. 45, 2250 (1972).
53. R.S. Markiewicz, H.R. Hart Jr., L.V. Interrante and J.S. Kasper, Synth. Metals. 2, 331 (1980).
54. M. Crespin, D. Tchoubor, L. Gatineau, F. Beguin and R. Setton, Carbon. 15, 303 (1977).
55. S.Y. Leung and G. Dresselhaus, Phys. Rev B. 24, 3490 (1981).
56. N. Caswell, S.A. Solin, T.M. Hayes and S.J. Hunter, Physica B, 99, 463 (1980).
57. D.E. Nixon and G.S. Parry, J. Phys. C. 2, 1732 (1969).
58. D. Guerard, C. Zeller and A. Herold, C. R. hebd. Seanc. Acad. Sci., Paris C, 283, 437 (1976).
60. G.M. Gualberto, C. Underhill, S.Y. Leung and G. Dresselhaus, Phys. Rev. B. 21, 862 (1980).
61. S. Flandrois, J. Masson, J.-C. Rouillou, J. Gualtier and C. Hauw, Synth. Metals. 3 (1-2), 1-13 (1981).
62. R.S. Markiewicz, J.S. Kasper and L.V. Interrante, Synth Metals. 2, 363 (1980).
63. T. Krapchev, R. Ogilvie and M.S. Dresselhaus, in: Extended Abstracts of the 15th Biennial Conference on Carbon (University of Pennsylvania, 1981).
64. L.B. Ebert, A. Rev. Mater. Sci. 6, 181 (1976).
65. E. Stumpp, Mater. Sci. Engng. 31, 53 (1977).
66. J.G. Hooley, in: Preparation and Crystal Growth of Materials with Layered Structures, edited by R.M.A. Leith (Reidel, Dordrecht, 1977), p. 1;
67. E. R. Falardeau, L. R. Hanlon and T. E. Th ompson, Inorg. Chem. 17, 301 (1978).
68. S. Aronson, F.J. Salzano and D. Bellafi ore, J. Chem. Phys. 49, 434 (1986).
69. S. Aronson, C. Frishberg and G. Frankl, Carbon, 9, 715 (1971).
70. N. Kambe, M.S. Dresselhaus, G. Dresselhaus, S. Basu, A. R. McGhie and J. E. Fischer, Mater. Sci. Engng. 40, 1 (1979).
71. D. Guerard and A. Herold, Carbon. 13, 337 (1975).
72. N. Kambe, G. Dresselhaus and M.S. Dresselhaus, Phys. Rev. B. 21, 3491 (1980).
73. W.D. Ellenson, D. Semmingsen, D. GueArard, D.G. Onn and J.E. Fischer, Mater. Sci. Engng. 31, 137 (1977).
74. M.D. Chinn and S.C. Fain Jr., Phys. Rev. Lett. 39, 146 (1977).
75. P. W. Stephens, P. Hwiney, R. J., Birgeneau and P. M. Horn, Phys. Rev. Lett. 43, 47 (1979).
76. D. D. L. Chung, Ph.D. Th esis, MIT, Cambridge, Massachusetts, 1977.
77. R. Clarke, N. Caswell, S. A. Solin and P. M. Horn, Phys. Rev. Lett. 43, 2018 (1979).
78. R. Clarke, N. Caswell, S. A. Solin and P. M. Horn, Physica B. 99, 457 (1980).
79. I. Rosenman, F. Batallan and G. Furdin, Phys. Rev. B. 20, 2373 (1979).
80. S. Postlund and A. N. Berker, Phys. Rev. B. 21, 5410 (1980).
81. G. S. Parry and D. E. Nixon, Nature, London, 216, 909 (1967).
82. G. S. Parry, D.E. Nixon, K. M. Lester and B. C. Levene, J. Phys. C. 2, 2156 (1969).
83. J. B. Hastings, W. D. Ellenson and J. E. Fischer, Phys. Rev. Lett., 42, 1552 (1979).
84. R. Clarke, N. Caswell and S.A. Solin, Phys. Rev. Lett. 42, 61 (1979).
85. H. Zabel, S.C. Moss, N. Caswell, and S.A. Solin, Phys. Rev. Lett. 43, 2022 (1979).
86. N. Kambe, G. Dresselhaus and M.S. Dresselhaus, Phys. Rev. B. 21, 3491 (1980).
87. A.N. Berker, N. Kambe, G. Dresselhaus and M.S. Dresselhaus, Phys. Rev. Lett. 45, 1452 (1980).
88. S.Y. Leung, C. Underhill, G. Dresselhaus, T. Krapchev, R. Ogilvie and M.S. Dresselhaus, Solid St. Commun. 32, 635 (1979).
89. J.J. Lander and J.M. Morrison, Surf. Sci. 6, 235 (1967).
90. E.L. Evans and J.M. Th omas, J. Solid St. Chem. 14, 99 (1975).
91. W. Rudorff and E. Schulze, Z. Anorg. Allg. Chem. 277, 156 (1954).
92. S. Aronson, F. J. Salzano and D. Bellafi ore, J. Chem. Phys. 49, 434 (1986).
93. D.G. Onn, G.M.T. Foley and J.E. Fischer, Mater. Sci. Engng. 31, 271 (1977).
94. D.G. Onn, G.M.T. Foley and J.E. Fischer, Phys. Rev. B. 19, 6474 (1979).
95. R. Clarke, N. Caswell, S.A. Solin and P.M. Horn, Physica B. 99, 457 (1980).
96. H. Suematsu, K. Higuchi and S. Tanuma, J. Phys. Soc. Japan. 48, 1541 (1980).
98. M. Bottomley, G. S. Parry and A. R. Ubbelhode, Proc. R. Soc. A. 278, 291 (1963).
99. A. R. Ubbelohde, Carbon. 6, 177 (1968).
100. A. Avogadro, G. Bellodi, G. Borghesi, G. Samoggia and M. Villa, Nuovo Cim. B. 38, 403 (1977).
101. A. Avogadro and M. Villa, J. Chem. Phys. 66, 2359 (1977).
102. S.K. Khanna, E.R. Falardeau, A.J. Heeger and J.E. Fischer, Solid St. Commun. 25, 1059 (1978).
103. K. Kawamura, T. Saito and T. Tsuzuku, Carbon. 13, 452 (1975).
104. A. Dworkin and A.R. Ubbelohde, Carbon. 16, 292 (1978).
105. B.R. Weinberger, J. Kaufer, A.J. Heeger, E.R. Falardeau and J.E. Fischer, Solid St. Commun. 27, 163 (1978).
106. B.R. Weinberger, J. Kaufer, A.J. Heeger, J.E. Fischer, M. Moran and N.A.W. Holzwarth, Phys. Rev. Lett. 41, 1417 (1978).
107. C. Zeller, L.A. Pendrys and F.L. Vogel, J. Mater. Sci. 14, 2241 (1979).
108. E. McRae, D. Billaud, J.F. Mareche and A. Herold, Physica B. 99, 489 (1980).
109. N.A.W. Holzwarth and S. Rabii, Mater. Sci. Engng. 31, 195 (1977).
110. N.A.W. Holzwarth, L.A. Girifalco and S. Rabii, Phys. Rev. B. 18, 5206 (1978).
111. N.A.W. Holzwarth, S. Rabii and L.A. Girifalco, Phys. Rev. B. 18, 5190 (1978).
112. J.C. Slater and G. F. Koster, Phys. Rev. 94, 1498 (1954).
113. W. Eberhardt, I.T. McGovern, E.W. Plummer and J.E. Fischer, Phys. Rev. Lett. 44, 200 (1980).
114. G. Dresselhaus, S.Y. Leung, M. Shayegan and T.C. Chieu, Synth. Metals. 2, 321 (1980).
115. L.G. Johnson and G. Dresselhaus, Phys. Rev. B. 7, 2275 (1973).
116. N.A.W. Holzwarth, Phys. Rev. B. 21, 3665 (1980).
117. L. Pietronero, S. StraÈssler, H.R. Zeller and M.J. Rice, Phys. Rev. Lett. 41, 763 (1978).
118. L. Pietronero and S. StraÈssler, Solid. St. Commun. 32, 1337 (1979).
119. S.A. Safran and F.J. Di Salvo, Phys. Rev. 20, 4889 (1979).
120. H. Suematsu, S. Tanuma and K. Higuchi, Physica B. 99, 420 (1980).
121. J.A. Woollam, E. Haugland, M.B. Dowell, N. Kambe, E. Mendez, F. Hakimi, G. Dresselhaus and M. S. Dresselhaus, in: Extended Abstracts of the 14th Biennial Conference on Carbon (Pennsylvania State University, 1979), p. 320.
122. G. Batallan, I. Rosenman, C. Simon, G. Furdin and H. Fuzellier, Physica B. 99, 411 (1980).
123. T. Inoshita, K. Nakao and H. Kamimura, J. Phys. Soc. Japan. 43, 1237 (1977).
124. A.R. Ubbelohde, Proc. R. Soc. A. 327, 289 (1972).
125. A.R. Ubbelohde, Carbon. 14, 1 (1976).
126. R.M. Fischer, D.J. Smith, L.A. Freeman, S.J. Pennycook and A. Howie, in: Extended Abstracts of the 14th Biennial Conference on Carbon (Pennsylvania State University, (1979), p. 318.
127. E. McRae and A. Herold, Mater. Sci. Engng. 31, 249 (1977).
128. C. Zeller, G.M.T. Foley and F.L. Vogel, J. Mater. Sci. 13, 1114 (1978).
129. C. Zeller, A. Denenstein and G.M.T. Foley, Rev. scient. Instrum. 50, 602 (1979).
130. J.J. Murray and A.R. Ubbelohde, Proc. R. Soc. A. 312, 371 (1969).
131. D. Guerard, P. Lagrange and A. Herold, Mater. Sci. Engng. 31, 29 (1977).
133. T. Sasa, Y. Takahashi and T. Mukaibo, Bull chem. Soc. Japan. 43, 34 (1970).
134. P. Pfl uger, P. Oelhafen, H.U. Kunzi, R. Jeker, E. Hauser, K.P. Ackerman, M. Muller, and H.-J. Guntherodt, Physica B. 99, 395 (1980).
135. A. R. Ubbelohde, Proc. R. Soc. A. 309, 297 (1969).
136. F.L. Vogel, Molecular Metals, edited by W. E. Hateld (Plenum Press, New York, 1979), p. 261.
137. G.M.T. Foley, C. Zeller, E.R. Falardeau and F. L. Vogel, Solid St. Commun. 24, 371 (1977).
138. F.L. Vogel, G.M.T. Foley, C. Zeller, E.R. Falardeau and J. Gan, Mater. Sci. Engng. 31, 261 (1977).
139. H. Fuzellier, J. Melin and A. Herold, Carbon. 15, 45 (1977).
140. T.E. Th ompson, E.R. Falardeau and L.R. Hanlon, Carbon. 15, 39 (1977).
141. L. Streifi nger, H.P. Boehm, R. SchloÈgl and R. Pentenreider, Carbon. 17, 195 (1979).
142. J.B. Perrachon, C. Zeller and F.L. Vogel, in: Extended Abstracts of the 14th Biennial Conference on Carbon (Pennsylvania State University, 1979), p. 304.
143. C. Kittel, Solid St. Commun. 25, 519 (1978).
144. R. Dingle, in: Festkorperprobleme (Advances in Solid State Physics), edited by H.J. Queisser (PergamonVieweg, Braunschweig, 1975), vol. XV, p. 21.
145. L. Esaki and L. L. Chang, Th in Solid Films. 36, 285 (1976).
146. G. Csányi, P.B. Littlewood, A.H. Nevidomskyy, C.J. Pickard and B.D. Simons, Nature Physics. 1, 42 (2005).
147. Y. Koike, H. Suemetsu, K. Higuchi and S. Tanuma, Physica B+C. 99, 503 (1980).
148. N.B. Hannay, T.H. Geballe, B.T. Matthias, K. Andres, P. Schmidt and D. MacNair, Phys. Rev. Lett. 14, 225 (1965).
149. I.T. Belash, A.D. Bronnikov, O.V. Zharikov and A.V. Palnichenko, Solid State Commun. 64, 1445 (1987).
150. T. Weller, M. Ellerby, S.S. Saxena, R. Smith and N. Skipper, Nature Phys. 1, 39 (2005).
151. K. Novoselov, A. Geim, S. Morozov, D. Jiang, M. Katsnelson, I. Grigorieva, S. Dubonos and A. Firsov, Nature (London), 438, 197, (2005).
152. K. Novoselov, E. McCann, S. Morozov, V. Fal’ko, M. Katnelson, U. Zeitler, D. Jiang, F. Schedin and A. Geim, Nat. Phys. 2, 177 (2006).
153. Y. Zhang, Y. Tan, H. Stormer and P. Kim, Nature (London). 438, 201 (2005).
154. C. L. Kane and E. J. Mele, Phys. Rev. Lett. 95, 226801 (2005).
155. K. Nomura and A. H. MacDonald, Phys. Rev. Lett. 96, 256602 (2006).
156. Y.-W. Son, M. Cohen and S. Louie, Nature (London). 444, 347 (2006).
157. M. Katsnelson, K. Novoselov and A. Geim, Nat. Phys. V. 2, 620 (2006).
158. L. Brey and H. Fertig, Phys. Rev. B. 73, 235411 (2006).
159. K. Kusakabe and M. Maruyama, Phys. Rev. B. 67, 092406 (2003).
160. N. M. R. Peres, F. Guinea and A. H. C. Neto, Phys. Rev. B. 73, 125411 (2006).
161. Z. Luo, P.M. Vora, E.J. Mele, A.T. C. Johnson and J.M. Kikkawa. Appl. Phys. Lett. 94,
111909 (2009).
162. R. Saito, G. Dresselhaus and M. S. Dresselhaus, Physical Properties of Carbon
Nanotubes (Imperial College Press, London, 1998).
163. J.-C. Charlier, X. Blasé and S. Roche, Rev. Mod. Phys. 79, 677 (2007).
164. S. Reich, C. Th omsen and J. Maultzsch, Carbon nanotubes: basic concepts and physical
properties (John Wiley & Sons, New York, 2008).
Lett. 92, 095501 (2004).
166. T.P. Diychkova and A.G. Tkachev, Methods of carbon nanotubes functionalization
and modifi cation (Edition house “Spectrum”, Moscow, 2013).
167. I.D. Rosca, F. Watari, M. Uo and T. Akasaka, Carbon. 43, 3124 (2005).
168. Z. Wang, M.D. Shirley, S.T. Meikle еt al. Carbon. 47, 73 (2009).
169. N.V. Glebova and A.A. Nechitaіlov, Technical Physics Letters. 36 (10), 878 (2010).
170. I. Mazov, V.L. Kuznetsov, I.A. Simonova, A.I. Stadnichenko, A.V. Ishchenko,
A.I. Roma nenko, E.N. Tkachev and O.B. Anikeeva, Applied Surface Science. 258.
6272 (2012).
171. G. Ovejero, J. L. Sotelo, M. D. Romero, A. Rodríguez, M. A. Ocaña, G. Rodríguez
and J. García, Ind. Eng. Chem. Res. 45, 2206 (2006).
172. A.G. Osorio, I.C.L. Silveira, V.L. Bueno and C.P. Bergmann, Applied Surface Science.
255, 2485 (2008).
173. K. Hernadi, A. Siska, L. Th iên-Nga, L. Forró, I. Kiricsi, Solid State Ionics. 141–142,
203 (2001).
174. Y.T. Kim and T. Mitani, Appl. Phys. Lett. 89, 033107 (2006).
175. M.W. Wang, J. Wang, J.W. Qu. Advanced Material Research. 197–198, 571 (2011).
176. Y. Lian, Y. Maeda, T. Wakahara, T. Akasaka, S. Kazaoui, N. Minami, T. Shimizu,
N. Choi and H. Tokumoto, J. Phys. Chem. B. 108 (26), 8848 (2004).
177. V. Datsyuk, M. Kalyva, K. Papagelis, J. Parthenios, D. Tasis, A. Siokou, I. Kallitsisa
and C. Galiotis, Carbon. 46 (6), 833 (2008).
178. T. Lin, V. Bajpai, T. Ji, L. Dai, Aust. J. Chem. 56, 635 (2003).
179. M.N. Kirikova, PhD dissertation, Lomonosov Moscow State University, 2009.
180. C. M. Ng and S. Manickam, Chemical Physics Letters. 557, 97 (2013).
181. O. Martín, H.R. Gutierrez, A. Maroto-Valiente, M. Terrones, T. Blanco and J. Baselga,
Materials Chemistry and Physics. 140 (2–3), 499 (2013).
182. K. Imasaka, J. Suehiro, Y. Kanatake, Y. Kato and M. Hara, Nanotechnology. 17 (14),
3421 (2006).
183. J.-Q. Huang, Q. Zhang, M.-Q. Zhao and F. Wei, Carbon. 48, 1441 (2010).
184. M. Ran, W. Sun, Y. Liu, W. Chu and C. Jiang, Journal of Solid State Chemistry. 197,
517 (2013).
185. P.M. Ajayan, T.W. Ebbesen, T. Ichihashi, S. Iijima, K. Tanigaki and H. Hiura, Nature.
362 (6420), 522 (1993).
186. V. Yao, S. X. C. Lordi, E. Ma, E. Dujardin, A. Krishnan, M.M.J. Treacy and
T.W. Ebbesen, J. Mater. Res. 13 (9), 2432 (1998).
187. A. Solhy, B. F. Machado, J. Beausoleil, Y. Kihn, F. Gonçalves, M.F.R. Pereira,
J.J.M. Órfão, J.L. Figueiredo, J.L. Faria and P. Serp, Carbon. 46 (9), 1194 (2008).
188. F. Сataldo, Fullerenes, Nanotubes, and Carbon Nanostructures. 16, 1 (2008).
189. J. M. Simmons, B. M. Nichols, S. E. Baker, M.S. Marcus, O.M. Castellini, C.-S. Lee,
R.J. Hamers and M.A. Eriksson, J. Phys. Chem. B. 110 (14), 7113 (2006).
190. K. Peng, L.-Q. Liu, H. Li, H. Meyer and Z. Zhang, Carbon. 49 (1), 70 (2011).
191. L.-С. Tang, H. Zhang, J.-H. Han, X.-p. Wu and Z. Zhang, Composites Science and
Technology. 72 (1), 7 (2011).
192. W. Xia, C. Jin, S. Kundu and M. Muhler, Carbon. 47, 919 (2009).
193. R. W. Gosselink, R. Berg, W. Xia, M. Muhler, K.P.de Jong and J.H. Bitter, Carbon. 50
(12), 4424 (2012).
26 (2), 98 (2011).
195. Yu.V. Tamarkina, I.B. Frolova, M.I. Chernyshova and V.O. Kucherenko, in: Th ird
National Conference “Current problems of chemistry research and perspectives” Conference
Proceedings (ZhDU Publishing House. I. Franko, Zhytomyr, 2019), pp. 157-159.
196. L. Chen, H. Xie, Y. Li and W. Yu, Th ermochimica Acta. 477, 21 (2008).
197. K.J. Ziegler, Z. Gu, H. Peng еt al., J. Am. Chem. Soc. 127 (5), 1541 (2005).
198. J. Zhang, H. Zou, Q. Qing, Y. Yang, Q. Li, Z. Liu, X. Guo and Z. Du, J. Phys. Chem.
B. 107 (12), 3712 (2003).
199. W. Zhou, Y. H. Ooi, R. Russo P. Papanek, D.E. Luzzi, J.E.Fischer, M.J.Bronikowski,
P.A.Willis and R.E. Smalley, Chem. Phys. Lett. 350, 6 (2001).
200. A. Hirsch and O. Vostrowsky, Top Curr Chem. 245, 193 (2005).
201. V. Leon, R. Parret, R. Almairac, L. Alvarez, M.-R. Babaa, B.P. Doyle, P. Ienny,
P. Parent, A. Zahab and J-L. Bantignies, Carbon. 50, 4987 (2012).
202. J. Chen, Q. Chen and Q. Ma, Journal of Colloid and Interface Science. 370, 32 (2012).
203. N. Lachman, X. Sui, T. Bendikov, H. Cohen and H.D. Wagner, Carbon. 50, 1734 (2012).
204. P. Singjai, S. Changsarn and S. Th ongtem, Materials Science and Engineering: A.
443, 42 (2007).
205. I. Mazov, V. L. Kuznetsov, I. A. Simonova, A.I. Stadnichenko, A.V. Ishchenko, A.I. Romanenko,
E.N. Tkachev and O.B. Anikeeva, Applied Surface Science. 258, 6272 (2012).
206. S.I. Cha, T.K. Kim, K.H. Lee, C.B. Mo, Y.J. Jeong and S.H. Hong, Carbon. 46, 482 (2008).
207. C.H. Lau, R. Cervini, S.R. Clarke, M.G. Markovic, J.G. Matisons, S.C. Hawkins,
C.P. Huynh and G.P. Simon, J. Nanopart. Res. 10, 77 (2008).
208. S. Piccozi, S. Santucci, L. Lozzi, C. Cantalini, C. Baratto, G. Sberveglieri, I. Armentano,
J. M. Kenny, L. Valentini and B. Delley, J. Vac. Sci. Technol. 22, 1466 (2004).
209. S. Agrawal, M. Raghuveer, H. Li and G. Ramanath, Appl. Phys. Lett. 90, 19 3104
(2007).
210. Yu. Hizhnyi, S.G. Nedilko, V. Borysiuk and V. A. Gubanov, International Journal of
Quantum Chemistry. 115 (20), 1475 (2015).
211. Borysiuk V.I. PhD dissertation, Taras Shevchenko National University of Kyiv,
2018.
212. B. Anderson, A. Peyster, S.C. Gad, P.J.B. Hakkinen, M. Kamrin, B. Locey,
H.M. Mehendale, C. Pope, L. Shugart and P. Wexler, Encyclopedia of Toxicology, 2nd
ed. (Academic Press, Oxford, 2005).
213. E. Aylón, R. Murillo, A. Fernández-Colino, A. Aranda, T. García, M.S. Callén and
A.M. Mastral, J. Anal. Appl. Pyrolysis. 79, 210 (2007).
214. W.J. Hall and P.T. Williams, J. Anal. Appl. Pyrolysis. 77, 75 (2006).
215. F. Barontini and V. Cozzani, J. Anal. Appl. Pyrolysis. 77, 41 (2006).
216. J.P.B. Karama, A. Béré, J. Lemonon, T. Daho, A. Dissa, Y. Rogaume and J. Koulidiati,
J. Anal. Appl. Pyrolysis. 101, 209 (2013).
217. D.M. Stavert, D.C. Archuleta, M.J. Behr and B.E. Lehnert, Fundam. Appl. Toxicol.
16, 636 (1991).
218. L. Bai and Z. Zhou, Carbon. 45, 2105 (2007).
219. Z. Zhou, X. Gao, J. Yan and D. Yan, Carbon. 44, 939 (2006).
220. F. Villalpando-Páez, A.H. Romero, E. Muñoz-Sandoval, L.M. Martinez, H. Terrones
and M. Terrones, Chem. Phys. Lett. 386, 137 (2004).
221. R. Wang, D. Zhang, Y. Zhang and C. Liu, J. Phys. Chem. B. 110, 18267 (2006).
N. Grobert, E. Llobet and C.P. Ewels, Carbon. 66, 662 (2014).
223. W. An and C.H. Turner, Chem. Phys. Lett. 482, 274 (2009).
224. J.A. Talla, Phys. B Condens. Matter. 407, 966 (2012).
225. J.A. Talla, Chem. Phys. 392, 71 (2012).
226. T. Vikramaditya and K. Sumithra, J. Comput. Chem. 35, 586 (2014).
227. M. J. Frisch, G. W. Trucks, H. B. Schlegel, G. E. Scuseria, M. A. Robb, J. R. Cheeseman,
J. A. Montgomery, Jr., T. Vreven, K. N. Kudin, J. C. Burant, J. M. Millam, S. S. Iyengar,
J. Tomasi, V. Barone, B. Mennucci, M. Cossi, G. Scalmani, N. Rega, G. A. Petersson,
H. Nakatsuji, M. Hada, M. Ehara, K. Toyota, R. Fukuda, J. Hasegawa, M. Ishida,
T. Nakajima, Y. Honda, O. Kitao, H. Nakai, M. Klene, X. Li, J. E. Knox, H. P. Hratchian,
J. B. Cross, V. Bakken, C. Adamo, J. Jaramillo, R. Gomperts, R. E. Stratmann, O. Yazyev,
A. J. Austin, R. Cammi, C. Pomelli, J. W. Ochterski, P. Y. Ayala, K. Morokuma,
G. A. Voth, P. Salvador, J. J. Dannenberg, V. G. Zakrzewski, S. Dapprich, A. D. Daniels,
M. C. Strain, O. Farkas, D. K. Malick, A. D. Rabuck, K. Raghavachari, J. B. Foresman,
J. V. Ortiz, Q. Cui, A. G. Baboul, S. Cliff ord, J. Cioslowski, B. B. Stefanov, G. Liu,
A. Liashenko, P. Piskorz, I. Komaromi, R. L. Martin, D. J. Fox, T. Keith, M. A. Al-
Laham, C. Y. Peng, A. Nanayakkara, M. Challacombe, P. M. W. Gill, B. Johnson,
W. Chen, M. W. Wong, C. Gonzalez, and J. A. Pople, Gaussian 03 (Gaussian, Inc.,
Wallingford, CT, 2003).
228. G. Hong, Y. Chen, P. Li and J. Zhang, Carbon. 50, 2067 (2012).
229. J.R. Sanchez-Valencia, T. Dienel, O. Gröning, I. Shorubalko, A. Mueller, M. Jansen,
K. Amsharov, P. Ruffi eux and R. Fasel, Nature. 512, 61 (2014).
230. Y. Wang and J.T.W. Yeow, J. Sens. 2009, 493904 (2009).
231. R. Leghrib, A. Felten, J.J. Pireaux and E. Llobet, Th in Solid Films, 520, 966 (2011).
232. L. Valentini, I. Armentano, J.M. Kenny, C. Cantalini, L. Lozzi and S. Santucci, Appl.
Phys. Lett. 82, 961 (2003).
233. K. Kato and S. Saito, Phys. E Low-Dimens. Syst. Nanostructures. 43, 669 (2011).
234. G. Bertoni and L. Calmels, Micron. 37, 486 (2006).
235. U. Borštnik, M. Hodošček, D. Janežič and I. Lukovits, Chem. Phys. Lett. 411, 384
(2005).
236. A. Ito, Y. Natsume, S. Ohmori and K. Tanaka, Nano Lett. 2, 629 (2002).
237. V.G. Boutko, A.A. Gusev, T.N. Shevtsova and Yu G. Pashkevich, Low Temp. Phys. 37,
1021 (2011).
238. K. Wang, C. Shi, N. Zhao, X. Du and J. Li, Chem. Phys. Lett. 469, 145 (2009).
239. F. Buonocore, Philos. Mag. 87, 1097 (2007).
240. R.A. Espejel-Morales, S. López-Moreno, A.G. Calles and J.L. Morán-López, Eur.
Phys. J. D. 67, 1 (2013).
241. P.N. D’yachkov, D.Z. Kutlubaev and D.V. Makaev, Phys. Rev. B. 82, 035426 (2010).
242. M.D. Esrafi li, Comput. Th eor. Chem. 1015, 1 (2013).
243. L. Zhang and Z. Xia, J. Phys. Chem. C. 115, 11170 (2011).
244. G. Fazio, L. Ferrighi and C. Di Valentin, J. Catal. 318, 203 (2014).
245. A.S. Ghasemi, Research Journal of Applied Sciences, Engineering and Technology
5 (6), 1892 (2013).
246. A. Galano, Chem. Phys. 327, 159 (2006).
247. I.K. Petrushenko and N.A. Ivanov, Mod. Phys. Lett. B. 27, 1350210 (2013).
248. A.D. Becke, J. Chem. Phys. 98, 5648 (1993).
250. V.I. Minkin, Pure Appl. Chem. 71 (10), (1999).
251. J.N. Israelachvili, Intermolecular and Surface Forces, 2nd ed. (Academic Press,
London, 1991).
252. S. Owen, C. Ahmed, C. Martin and R. Woodward, Chemistry for the IB Diploma
(Cambridge University Press, 2011).
253. K.R. Kunduru, M. Nazarkovsky, S. Farah, R.P. Pawar, A. Basu and A.J Domb, in:
Water Purifi cation, edited by A.M. Grumezescu (Academic Press, 2017), pp. 33-74.
254. K.K. Yadav, J.K. Singh, N. Gupta, V. Kumar, JMES. 8 (2), 740 (2017).
255. M. Anjum, R. Miandad, M. Waqas, F. Gehany and M.A. Barakat, Arab. J. Chem. 12
(8), 4897 (2019), doi:10.1016/j.arabjc.2016.10.004.
256. I. Mohmood, C. B. Lopes, I. Lopes, I. Ahmad, A. C. Duarte and E. Pereira, Environ.
Sci. Pollut. Res., 20, 1239 (2013).
257. M. Ghashghaee and V. Farzaneh, Iranian Journal of Toxicology. 10 (6), 15 (2016).
258. A. Tytłak, P. Oleszczuk and R. Dobrowolski, Environ. Sci. Pollut. Res., 22, 5985
(2015).
259. P.K. Pandey, S.K. Sharma and S.S. Sambi, Int. J. Environ. Sci. Technol. 7, 395
(2010).
260. T. Dula, K. Siraj and S.A. Kitte, ISRN Environmental Chemistry. 2014, 438245, (2014), https://
doi.org/10.1155/2014/438245.
261. B. Salunkhe and S.J. Raut, Int. J. Chem. Sci. 10 (2), 1133 (2012).
262. M. A. Shouman, N.A. Fathy, S.A. Khedr and A.A. Attia, Adv. Phys. Chem. 2013,
159712 (2013), DOI: 10.1155/2013/159712.
263. D. Satapathy, G. S. Natarajan and S.J. Patil, J. Chin. Chem. Soc. 52, 35 (2005).
264. M.I.E. Halmi and S.A. Ahmad, J. Biochem. Microbiol. Biotechnol. 2, 1 (2014).
265. C.-W. Wang, C. Liang and H.-J. Yeh, Chemosphere. 147, 82 (2016).
266. S. Datta, S. E. Vero, G. M. Hettiarachchi and K. Johannesson, Curr.Pollut. Rep. 3, 55 (2017).
267. M. Dakiky, M. Khamis, A. Manassra and M. Mer’eb, Adv. Environ. Res. 6, 533 (2002).
268. J. Romero-GonzÅlez, J.R. Peralta-Videa, E. Rodrı́guez, S.L. Ramirez and J.L. Gardea-
Torresdey, J. Chem. Th ermodyn. 37, 343 (2005).
269. R. Yavuz, İ. Orbak and N. Karatepe, J. Environ. Sci. Health Part A. 41, 1967 (2006).
270. R. Gottipati, Ph.D. dissertation, National Institute of Technology Rourkela, 2012.
271. S. Yang, J. Li, D. Shao, J. Hu and X. Wang, J. Hazard. Mater. 166, 109 (2009).
272. X. Ren, C. Chen, M. Nagatsu and X. Wang, Chem. Eng. J. 170, 395 (2011).
273. C. Jung, J. Heo, J. Han, N. Her, S.J. Lee, J. Oh and Y. Yoon, Sep. Purif. Technol. 106,
63 (2013).
274. Y. Xu, A. Rosa, X. Liu and D. Su, New Carbon Mater. 26, 57 (2011).
275. J. Hu, C. Chen, X. Zhu and X. Wang, J. Hazard. Mater. 162, 1542 (2009).
276. F.A. Ihsanullah Al-Khaldi, B. Abu-Sharkh, A. M. Abulkibash, M. I. Qureshi, T. Laoui
and M.A. Atieh, Desalination and Water Treatment. 57 (16), 7232 (2016).
277. K. Pillay, E. M. Cukrowska and N.J. Coville, J. Hazard. Mater. 166, 1067 (2009).
278. V. K. Gupta, O. Moradi, I. Tyagi, S. Agarwal, H. Sadegh, R. Shahryari-Ghoshekandi
and A. Garshasbi, Crit. Rev. Environ. Sci. Technol. 46, 93 (2016).
279. D. Iannazzo, A. Pistone, I. Ziccarelli, C. Espro, S. Galvagno, S.V. Giofré and L. Legnani,
Environmental Science and Pollution Research. 24 (17), 14735 (2017).
280. I. Shtepliuk, N.M. Caff rey, T. Iakimov, V. Khranovskyy, I.A. Abrikosov and R. Yakimova, Scienti reports. 7 (1), 3934 (2017).
colloid and interface science. 334 (2), 124 (2009).
282. O.A. Oyetade, A.A. Skelton, V.O. Nyamori, S.B. Jonnalagadda and B.S. Martincigh,
Separation and Purifi cation Technology. 188, 174 (2017).
283. A.S. Deb, V. Dwivedi, K. Dasgupta, S. M. Ali and K. T. Shenoy, Chemical Engineering
Journal. 313, 899 (2017).
284. Y. Hizhnyi, S. Nedilko, V. Borysiuk and A. Shyichuk, Nanoscale Res. Lett. 12, 71 (2017).
285. A.K. Sengupta and D. Cliff ord, Environ. Sci. Technol. 20, 149 (1986).
286. A.K. Sengupta, S. Subramonian and D. Cliff ord, J. Environ. Eng. 114, 137 (1988).
287. D. Zhao, A.K. SenGupta and L. Stewart, Ind. Eng. Chem. Res. 37, 4383 (1998).
288. C. Cazorla, Coord. Chem. Rev. 300, 142 (2015).
289. T.M. Radchenko, V.A. Tatarenko, I.Y. Sagalianov and Y.I. Prylutskyy, Phys. Lett. A.
378, 2270 (2014).
290. U. Ritter, N.G. Tsierkezos, Y.I. Prylutskyy, L.Y. Matzui, V.O. Gubanov, M.M. Bilyi
and M.O. Davydenko, J. Mater. Sci. 47, 2390 (2012).
291. A. Abbas, A.M. Al-Amer, T. Laoui, M.J. Al-Marri, M.S. Nasser, M. Khraisheh and
M.A. Atieh, Sep. Purif. Technol. 157, 141 (2016).
292. B. Saha and C. Orvig, Coord. Chem. Rev. 254, 2959 (2010).
293. J. Kotaś and Z. Stasicka, Environ. Pollut. 107, 263 (2000).
294. A.K. Shanker, C. Cervantes, H. Loza-Tavera and S. Avudainayagam, Environ. Int. 31,
739 (2005).
295. Y. Hizhnyi, S. Nedilko, V. Borysiuk, A. Shyichuk, International Journal of Quantum
Chemistry. 118 (20), e25715 (2018).
296. I. Vasiliev, M. L. del Puerto, M. Jain, A. Lugo-Solis and J.R.J. Chelikowsky, Mol.
Struct. THEOCHEM. 914, 115 (2009).
297. T. H. J. Dunning, Chem. Phys. 90, 1007 (1989).
298. K. A. Peterson, D. Figgen, M. Dolg and H. J. Stoll, Chem. Phys. 126, 124101 (2007).
299. D. Figgen, K. A. Peterson, M. Dolg and H. J. Stoll, Chem. Phys. 130, 164108 (2009).
300. I. Kumari, S. Gupta and N. Goel, Comput.Th eor. Chem. 1091, 107 (2016).
301. H.-J. Zhai, S. Li, D.A. Dixon and L.-S. Wang, J. Am. Chem. Soc. 130, 5167 (2008).
302. S. Miertuљ, E. Scrocco and J. Tomasi, Chem. Phys. 55, 117 (1981).
303. S.F. Boys and F. Bernardi, Mol. Phys. 19, 553 (1970).
304. I. Seidu, M. Krykunov and T.J. Ziegler, Chem. Th eory Comput. 11, 4041 (2015).
305. W.M. Haynes, editor, CRC Handbook of Chemistry and Physics (CRC press, Boca
Raton, 2014).
306. F. Mercuri, M. Baldoni and A. Sgamellotti, Nanoscale. 4, 369 (2012).
307. C. P. Ewels and M. J. Glerup, Nanosci. Nanotechnol. 5, 1345 (2005).
308. C.-G. Lee and S.-B. Kim, Water Environ. Res. 88, 2111 (2016).
309. E. M. Verdugo, Y. Xie, J. Baltrusaitis and D. M. Cwiertny, RSC Adv., 6, 99997 (2016).
310. M. H. Dehghani, M.M. Taher, A.K. Bajpai, B. Heibati, I. Tyagi, M. Asif and
V. K. Gupta, Chem. Eng. J., 279, 344 (2015).
311. E.M. Elsehly, N.G. Chechenin, A.V. Makunin, H.A. Motaweh, E.A. Vorobyeva,
K.A. Bukunov and A.B. Priselkova, Chin. J. Chem. Eng. 24, 1695 (2016).
312. D. Tasis, N. Tagmatarchis, A. Bianco and M. Prato, Chem. Rev. 106, 1105 (2006).
313. V. Georgakilas, N. Tagmatarchis, D. Pantarotto, A. Bianco, J.P. Briand and M. Prato, Chem. Commun. 24, 3050 (2002).
СHAPTER 2
its composites, edited by M.T. Kartel (Akademperiodika, Kyiv, 2019).
2. Yu.I.Sementsov and M.L. Pyatkovskii, in: Neorganicheskoe materialovedenie. Materialy
i tekhnologii, edited by G.G. Gnesin and V.V. Skorokhod (Naukova dumka, Kyiv,
2008), vol. 2, book. 2, pp. 410—425 [in Russian].
3. N.E. Sorokina, A.V. Redchitz, S.G. Ionov and V.V. Avdeev, Journal of Physics and
Chemistry of Solids. 67 (5–6), 1202 (2006).
4. V.V. Yanchenko and Yu.I. Sementsov, Armaturostroenie. 4(36), 41 (2005).
5. A. Celzard, J.F. Mareche and G. Furdin, Progress in Materials Science. 50 (1), 93 (2005).
6. Yu-Ying Huang, Da Han, Yan-Bing He, Qinbai Yun, Ming Liu, Xianying Qin, Baohua
Li and Feiyu Kang, Electrochimica Acta. 184, 364 (2015).
7. R.Ya. Shvets, I.I. Grygorchak, A.S. Kurepa, N.T. Pokladok, Yu.I. Sementsov, G.I. Dovbeshko,
Ye. Sheregii and B. Seredyuk, Acta Physica Polonica A. 128 (2), 208 (2015).
8. A.S. Tikhomirov, N.E. Sorokina, O.N. Shornikova, V.A. Morozov, G. van Tendeloo
and V.V. Avdeev, Carbon. 49 (1), 147 (2011).
9. I.M. Afanasov, G. Van Tendeloo and A.T. Matveev, New Carbon Materials. 25 (4),
255 (2010).
10. P. Yu, S. E. Lowe, Ge. P. Simon and Y. L. Zhong, Current Opinion in Colloid & Interface
Science. 20 (5–6), 329 (2015).
11. M. Belekoukia, M.S. Ramasamy, S. Yang, X. Feng, G. Paterakis, V. Dracopoulos,
C. Galiotis and P. Lianos, Electrochimica Acta. 194, 110 (2016).
12. Y. Sementsov, S. Makhno, M. Kartel, W. Bo, G. Dovbeshko, V. Styopkin and
S. Nedilko, IJISET. 4 (8), 71 (2017).
13. M. Kartel, Y. Sementsov, G. Dovbeshko, L. Karachevtseva, S. Makhno, T. Aleksyeyeva,
Y. Grebel’na, V. Styopkin, W. Bo and Y. Stubrov, Advanced materials letters.
8 (3), 212 (2017).
14. S.G. Nedilko, S. Revo, V. Chornii, V. Scherbatskyi, K. Ivanenko, M. Nedielko, Y. Sementsov,
M. Skoryk, A. Nikolenko and V. Strelchuk, Nanoscale Res Lett. 12, 28.
(2017). https://doi:10.1186/s11671-016-1770-5
M. Jawaide, Polymer Degradation and Stability. 110, 137 (2014).
16. R. Sengupta, M. Bhattacharya, S. Bandyopadhyay and A.K. Bhowmick, Progress in
Polymer Science. 36 (5), 638 (2011).
17. S.M. Makhno, O.M. Lisova, G.M. Hunia, Yu.I. Sementsov, Yu.V. Hrebelna and
M.T. Kartel, Physics and chemistry of solid state. 17 (3), 421 (2016).
18. I.G. Chernysh, I.I. Karpov, G.P. Prikhod’ko, V.M. Shay, Fiziko-khimicheskie svoystva
grafi ta i ego soedineniy (Nauk. dumka, Kyiv, 1990).
19. D.D.L. Chung, J. Matter. Sci. 22 (12), 4190 (1987).
20. Yu. I. Sementsov, M. L. Pyatkovskii and I. G. Chernysh, Powder Metallurgy and
Metal Ceramics. 37 (9–10), 545 (1998).
21. I.D. Buraya, L.L. Vovchenko, L.L. Voznaya, Yu.I. Sementsov, I.G. Chernysh and
O.P. Yatsyuk, Khimiya tverdogo topliva. (6), 106 (1990). [in Russian].
22. M.L. Piatkovskyi, Yu.I. Sementsov and I.G. Chernysh, Khim. prom. Ukrainy. (3), 42
(1996) [in Ukrainian].
23. Yu.I. Sementsov, L.G. Koval, V.P. Didukh and V.I. Lysov, Khim. prom. Ukrainy. (4),
34 (1994) [in Ukrainian].
24. Yu.I. Sementsov, L.G. Koval and A.A. Chuyko, Ekotehnologii i resursozberezhenie.
(2), 27 (1997) [in Russian].
25. I.G. Chernysh, Him. prom. Ukraine. (4), 3 (1994). [in Ukrainian]
26. M.M. Zaiats, Him. prom. Ukraine. (4), 9 (1994) [in Ukrainian].
27. M.L. Piatkovskyi, Yu.I. Sementsov, G.P. Prykhodko and M.T. Kartel, Khim. prom.
Ukrainy. (6), 17 (2011). [in Ukrainian]
28. N.E. Sorokina, I.V. Nikolskaya, S.G. Ionov and V.V. Avdeev, IzvestiyaAN RF, Ser.
Khim. 54 (8), 162 (2005) [in Russian].
29. Sorokina, Doctor of Science dissertation, Moscow State University, 2007. [in Russian]
30. A. Metrot and H. Fuzellier, Carbon. 22 (2) 131 (1984).
31. F. Beck and H. Krohn, Synthetic metals. 14 (1-2), 137 (1986).
32. A.V. Yakovlev, A.I. Finaenov, S.L. Zabud’kov and E. V. Yakovleva, Russ J Appl Chem.
79 (11), 1741 (2006).
33. O.V. Melezhik, M.L. Piatkovskyi, V.V. Yanchenko, G.P. Prihodko and Yu.I. Sementsov,
Khim. Prom. Ukrainy. (6), 7 (2005). [in Ukrainian].
34. Yu.I. Sementsov, G.P. Prykhodko, N.A. Havryliuk, A.Io. Senkevych, M.L. Piatkovskyi
and V.V. Yanchenko, Khim. prom. Ukrainy. (2), 19 (2007). [in Ukrainian].
35. G.P. Homchenko and I.K. Tsitovich, Neorganicheskaya khimiya, (Vysshaya shkola,
Moscow, 1978). [in Russian]
36. A.I. Finaenov, S.P. Apostolov, V.V. Krasnov and V.A. Nastasin, Russ J Appl Chem. 72
(5), 800 (1999).
37. S.P. Apostolov, V.V. Krasnov and A.I. Finaenov, Russ J Appl Chem. 70 (4), 577 (1997).
38. A.V. Yakovlev and A.I. Finaenov, Zhurnal prikladnoy khimii. 72 (1), 88 (1999) [in Russian].
39. N. Watanabe, T. Kondo and J. Ishiguro, USA Patent No. 4350576 (21 September, 1982).
40. A. Jnioni, A. Metrot and A. Storck, Electrochim. acta. 27 (9), 1247 (1982).
41. F. Kang, Y.-P. Zheng, H.-N. Wang, Y. Nishi and M. Inagaki, Carbon. 40 (9), 1575 (2002).
42. A.S. Fialkov and L.S. Maley, in: Elektrougolnye i metallokeramicheskie izdeliya dlya
elektrotekhniki (Energoatomizdat, Moskva, 1985), pp. 65—72 [in Russian].
43. M.L. Pyatkovskiy, Yu.I. Sementsov, G.P. Prirhodko and V.V. Yanchenko, Khim. prom.
Ukrainy. (3), 8 (2010) [in Russian].
44. V.V. Yanchenko, M.L. Piatkovskyi and Yu.I. Sementsov, Ukraine Patent № 77533 (15
December, 2006).
Ukrainy. (1), 16 (2011) [in Russian].
46. N.E. Sorokina, A.I. Finaenov, V.V. Avdeev, V.S. Leshin, V.A. Sezemin, V.V. Krasnov,
A.V. Krasnov, D.A. Kramskoy, S.G. Ionov and V.A. Nastasin, RF Patent № 2264983
(27 November, 2005).
47. A.I. Finaenov, V.V. Avdeev, V.V. Krasnov, S.P. Apostolov, L.A. Monyakina and
I.V. Nikolskaya, RF Patent No. 2083723 (10 July, 1997) [in Russian].
48. V.V. Avdeev, A.I. Finaenov, S.P. Apostolov, V.V. Krasnov, A.V. Yakovlev, V.A. Sezemin,
N.E. Sorokina, O.A.Tverezovskaya, I.V. Nikolskaya and L.A. Monyakina, RF Patent
No. 2142409 (10 December, 1999) [in Russian].
49. A.I. Finaenov, V.V. Avdeev, V.V. Krasnov, A.V. Krasnov, A.I. Trifonov, D.A. Kramskoy,
N.E. Sorokina, A.V. Sezemin, S.G. Ionov and I.V. Nikolskaya, RF Patent No. 2263070
(27 October, 2005) [in Russian].
50. W. Zhang, X. Zhang, H. Liu, G. Zhou, Z. Li, L.W. Ren; Y. Zhang; X.-B. Wang; S. Zhang,
J. Wei, Y. Wang, Yu.I. Sementsov, M.L. Pyatkovskiy, N.T. Kartel, O.Yo. Kozik, and
S.M. Gozhdzinskiy, CN Patent No ZL 2015 1 0372161.8 (26 April, 2017) [in Chinese].
51. . Zhang, X. Zhang, G. Zhou, H. Liu, Z. Li, L.W. Ren, Y. Zhang, X.-B. Wang, S. Zhang,
J. Wei, Yu.I. Sementsov, M.L. Pyatkovskiy, N.T. Kartel, O.Yo. Kozik, and S.M. Gozhdzinskiy,
CN Patent No ZL 2015 1 0372162.2 (03 May, 2017) [in Chinese].
52. A.R. Ubbelohde and F.A. Lewis, Graphite and its crystal compounds (Clarendon
Press, Oxford, 1960).
53. K.E. Makhorin, A.P. Kozhan and V.V. Veselov, Khim. tehnologiya. (2), 3 (1985) [in Russian].
54. A. M. Glauert, editor, Practical methods in electron microscopy. (North-Holland Pub.
Co., Amsterdam, 1972).
55. Yu.I. Sementsov, M.L Pyatkovsky, G.P. Prikhod’ko, V.M. Ogenko, I.G. Sidorenko and
V.V. Yanchenko, in: Chemistry, physics and technology of surfaces. Interdepartamental
Digest of Scientifi c Papers, edited by A.A. Chuiko (NAS of Ukraine. Institute of Surface
Chemistry, Kyiv, 2002), iss. 8, pp. 190—214.
56. I.M. Yurkovskiy, T.Yu. Smirnova and L.S. Moley, Khimiya tverdogo topliva. (1), 127
(1986) [in Russian].
57. L.M. Utevskiy, Difraktsionnaya elektronnaya mikroskopiya v metallovedenii (Metallurgiya,
Moscow, 1973). [in Russian].
58. N.F. Gadzyra, Yu.I. Sementsov and I.G. Chernysh, Doklady AN USSR. (12), 57
(1990) [in Russian].
59. V.Ya. Prokhorenko, B.I. Sokolovskiy and Ya.I. Dytchak, AS USSR № 935764 (15 June, 1982).
60. D.S. Tsiklis, Tekhnika fi ziko-khimicheskikh issledovaniy pri vyisokikh i sverkhvysokikh
davleniyakh. (Khimiya, Moscow, 1976). [in Russian].
61. V.M. Glazov, M. Vobet and V.M. Timoshenko, Metody issledovaniya svoystv zhidkih
metallov i poluprovodnikov (Metallurgiya, Moskva, 1989). [in Russian].
62. C. Mazieres, G. Colin, J. Jegoudez and R. Setton, Carbon. 13 (4), 289 (1975).
63. I.M. Yurkovskiy. Khimiya tverdogo topliva. (5), 136 (1989) [in Russian].
64. G.I. Dovbeshko, V.S. Kopan, S.L. Revo, M.M. Nishchenko, G.P. Prikhod
65. ko, M.L Pyatkovsky, Yu.I. Sementsov and M. Westermayer, Metallofi zika i noveyshie
tekhnologii. 27 (3), 1001 (2005) [in Russian].
66. S.P. Likhtorovich, M.M. Nishchenko, G.P. Prikhod’ko, Yu.I. Sementsov, E.V.Polshin,
V.Yu. Koda and I.Ye. Fomenko, in: VIII International Hydrogen Materials Science and
Chemistry of Carbon Nanomaterials Conference Proceedings (Sudak, Crimea, 2003),
pp. 608—609.
Amsterdam, 1988).
68. Y. C. Jean, Y. Rhee, Y. Lou, H. L. Yen, H. Cao, K. Cheong, and Y. Gu, Phys. Rev. B 54
(3), 1785 (1996).
69. O.V. Mikhailenko, M.Yu. Kornilov, T.V. Ljubchik and S.D. Isaev, in: VIII International
Hydrogen Materials Science and Chemistry of Carbon Nanomaterials Conference
Proceedings (Sudak, Crimea, 2003), pp. 490—491.
70. Yu.I. Sementsov, G.P. Prikhod’ko, S.L. Revo, A.V. Melezhyk, M.L. Pyatkovskiy and
V.V. poYanchenko., in: VIII International Hydrogen Materials Science and Chemistry of
Carbon Nanomaterials Conference Proceedings (Sudak, Crimea, 2003), pp. 488—489.
71. G.I. Dovbeshko, O.P. Repnystka and Y.V. Shtogun, Chem. Phys. Lett. 372, 432 (2003).
72. S.Ya. Brichka, G.P. Prikhod’ko, A.V. Brichka, M.I. Terets, V.A. Pokrovskiy, G.I. Dovbeshko
and O.P. Repnystka, Zhurn. fi z. khim. 78 (1), 157 (2004) [in Russian].
73. Yu.I. Sementsov, G.I. Dovbeshko, S.Ya. Brychka, A.V. Brychka and G.P. Prikhod’ko, in:
Proc. 12th Intern. Symp. on Intercalation Compounds (Poznan, Poland, 2003), p. 107.
74. J. Robertson, Mater. Sci. Eng. R. 37, 129 (2002).
75. M.S. Dresselhaus and G. Dresselhaus, Adv. Phys. 51, (1), 1 (2002).
76. B.N. Kuznetsov, N.V. Chesnokov, N.M. Mikova, T.G. Shendrik, S.B. Lyubchik and
M.V. Savos’kin, in: VIII International Hydrogen Materials Science and Chemistry of
Carbon Nanomaterials Conference Proceedings (Sudak, Crimea, 2003), pp. 512—515.
77. Yu.I. Tarasevich, S.V. Bondarenko, V.V. Brutko, A.I. Zhukova, G.N. Malysh and
I.G. Polyakova, Russian Journal of Applied Chemistry. 76 (10), 1577 (2003).
78. S. Iijima, Nature. 354 (6348), 56 (1991).
79. S.V. Rotkin and Yu. Gogotsi, Matter. Res. Innovat. 5, 191 (2002).
80. I.V. Nikolskaya, N.E. Fadeeva, K.N. Semenenko, V.V. Avdeev and L.A. Monyakina,
Zhurn. obshchei khimii. 59 (12), 2653 (1989) [in Russian].
81. V.V. Avdeev, L.A. Monyakina and I.V. Nikolskaya, Neorganicheskie materialy. 31 (3),
393 (1995) [in Russian].
82. Patent US Applications 0020182387, 0030044614.
83. Patents US 6416815, 6406612, 6149972.
84. I.G. Chernysh, N.F. Gadzyra, Yu.I. Sementsov and O.P. Yatsyuk, Strukturno-fi zicheskie
prevrashcheniya kristallicheskikh form grafi ta, Preprint. (ISC AN USSR, Kyiv, 1990).
[in Russian].
85. A.S. Fialkov, Uglegrafi tovye materialy. (Energiya, Moscow, 1979). [in Russian].
86. A.I. Antonov, V.A. Timonin, S.D. Fedoseev and L.F. Makevnina, Khimiya tverdogo
topliva. (1), 114 (1984) [in Russian].
87. I.G. Chernysh, Yu.A. Nikitin and N.V. Levental’, Powder Metallurgy and Metal Ceramics.
30 (6), 459 (1991).
88. L.S. Maley, A.S. Fialkov and M.M. Maley, A. S. USSR No. 1054332. (15 November,
1983). [in Russian].
89. Yu.A. Nikitin and M.L. Pyatkovskii, Powder Metallurgy and Metal Ceramics. 36
(1/2), 41 (1997).
90. M.E. Dritsa, editor, Svoystva elementov (Metallurgiya, Moscow, 1985). [in Russian].
91. Yu.A. Nikitin, I.G. Chernysh and M.L. Pyatkovskiy, Tsvet. metally. (3), 38 (1992) [in
Russian].
92. I.G. Chernysh, I.D. Buraya, V.P. Goncharik et al., in: Organizatsiya proizvodstva nerudnykh
i nemetallorudnykh materialov v usloviyakh samofi nansirovaniya i samookupaemosti
(Soyuznerud, Tolyatti, 1989), pp. 50—54 [in Russian].
in-ta. (141), 75 (1986) [in Russian].
94. I.D. Buraya, Yu.I. Sementsov, I.G. Chernysh, T.D. Akulova and N.G. Khudyakov, in: Organizatsiya
proizvodstva nerudnykh i nemetallorudnykh materialov v usloviyakh samofi nansirovaniya
i samookupaemosti (Soyuznerud, Tolyatti, 1989) pp. 43—45 [in Russian].
95. Yu.A. Nikitin, M.L. Pyatkovskii and I.G. Chernysh, Powder Metallurgy and Metal
Ceramics. 37 (5/6), 253 (1998).
96. V.V. Avdeev, N.E. Sorokina, I.Yu. Martynov, L.A. Monyakina and I.V. Nikol’skaya,
Inorganic materials. 33 (6), 580 (1997).
97. A.K. Tsvetnikov, T.Yu. Nazarenko, L.A. Matveenko and N.M. Mishchenko, Russian
journal of inorganic chemistry. 42 (5), 625 (1997).
98. A.V. Melezhik and A.A. Chuyko, Khimicheskaya tekhnologiya. (2), 3 (1992) [in Russian].
99. V.V. Yanchenko, M.L. Piatkovskyi, O.P. Yatsiuk, S.L. Revo and Yu.I. Sementsov,
Naukovyi visnyk UkrNDIPB. 1 (7) (2003) [in Ukrainian]. http://fi resafety.at.ua/
visnyk/2003_No_1-07/jacjuk.pdf
100. V.V. Yanchenko, S.L. Revo, Yu.I. Sementsov, M.L. Piatkovskyi and O.P. Yatsyuk, Naukovyi
visnyk UkrNDIPB. 2 (6), 223 (2002) [in Ukrainian].
101. S.G. Kotov and A.Yu. Lupey, Nauchnoe obespechenie pozharnoy bezopasnosti. (10),
92 (2001) [in Russian].
102. S.V. Pakhovchyshyn, Yu.I. Sementsov, V.F. Grytsenko, L.G. Koval’, O.O. Chuiko,
I.G. Chernysh and A.P. Shymanskyi, Ukraine Patent No. 27395 (15 September, 2000).
103. Yu.I. Sementsov, T.A. Alekseyeyva, M.L. Pyatkovskii, A.I. Kostuchenko and
V.V. Yanchenko, in: Proceedings 12th International Symposium on Intercalation Compounds
(Poznan, Poland, 2003), Poster 49.
104. V.M. Ogenko, G.M. Zagorovskiy, I.G. Sidorenko and Yu.I. Sementsov, in: Problemy sbora,
pererabotki i utilizatsii otkhodov (OTsNTI. Odessa, 2001), pp. 258—261 [in Russian].
105. V.M. Ogenko, G.M. Zagorovskiy, I.G. Sidorenko et al., in: Problemy sbora, pererabotki
i utilizatsii otkhodov (OTsNTI. Odessa, 2001), pp. 165—168 [in Russian]
106. Yu.I. Sementsov, M.L. Piatkovskii, V.V. Yanchenko and G.P. Prikhod’ko, Khim. prom.
Ukrainy. (3), 31 (2011) [in Ukrainian].
107. Yu.I. Sementsov, M.L. Pyatkovskii, V.V. Yanchenko, G.P. Prukhodko and S.Ya. Brychka,
in: Proc. II Mezhdunarodnoy konferentsii «Uglerod: fundamentalnye problemy
— nauka, materialovedenie, tekhnologiya (Moscow, 2003), p. 178 [in Russian].
108. High temperature material, Patent FR1395964 (16 April, 1965). (Shane James Harry,
Russel Robert John, Bochman Raymond A, Patent US3494382 (10 February, 1970).
109. V.V. Avdeev, S.G. Ionov, A.V. Kozlov, I.V. Nikolskaya, H.I. Serebryanikov, B.A. Sakov,
G.V. Presnov, B.V. Lomakin, V.A. Shkirov, RU Patetnt No. 2111190 (20 May, 1998)
[in Russian].
110. O.Yu. Isaev, D.V. Smirnov, V.P. Lepikhin and I.V. Zakharov, RU Patetnt No. 2118942
(20 September, 1998) [in Russian].
111. Yu.I. Sementsov, M.L. Piatkovskii and V.V. Yanchenko, Ukr. Patent No. 81198 (10
December, 2007) [in Ukrainian]..
112. V.V. Yanchenko, Declarative patent of Ukraine for invention No. 48463 (15 August,
2002). [in Ukrainian].
113. I.D. Buraya, Ph.D. dissertation, Institute of Surface Chemistry NAS of Ukraine, 1990
[in Russian].
114. Yu.I. Sementsov, Formation of structure and properties of sp2-carbon nanomaterials
and functional composites with their participation (Interservis, Kyiv, 2019).
СHAPTER 3
Chemistry. 78 (6), 917 (2005).
2. V.V. Yanchenko, O.O. Kovalenko, Yu.I. Sementsov and O.V. Melezhik, Ukraine
Patent No. 17386 (15 September, 2006).
3. V.V. Yanchenko, O.O. Kovalenko, Yu.I. Sementsov and O.V. Melezhik, Ukraine
Patent No. 17387 (15 September, 2006).
4. V.V. Yanchenko, O.O. Kovalenko, Yu.I. Sementsov and O.V. Melezhik, Ukraine
Patent No. 83532 (25 July, .2008).
5. V.V. Yanchenko, Yu.I. Sementsov and O.V. Melezhik, Ukraine Patent No. 69291
(12 November, 2007).
6. A.A. Volodin, P.V. Fursikov, A.V. Ivanov et al., in: VIII International Conference
Hydrogen materials science and chemistry of carbon nanomaterials, edited by D.V. Schur,
S.Yu. Zaginaichenko and T.N. Veziroglu (IAHE, Kiev, 2003), pp. 476—477.
7. L.B. Avdeeva and V.A. Likholobov, RF Patent No. 2146648 (20 March, 2000).
8. D. Moy and A. Chishti, US Patent Application No. 20060239897 (26 October,
2006).
9. Z. Zhou, L. Ci, X. Chen, D. Tang, D. Liu, Y. Liang, H. Yuan, W. Zhou, G. Wang and
S. Xie, Carbon. 41 (2), 337 (2003).
10. Z. Zhou, L. Ci, L. Song, X. Yan, D. Liu, H. Yuan, Y. Gao, J. Wang, L. Liu, W. Zhou,
G. Wang and S. Xie, Carbon. 41 (13), 2607 (2003).
11. D. Moy and A. Chishti, US Patent Application No. 20010014307 (16 August, 2001).
12. A. Tarafdar, A.B. Panda and P. Pramanik, Microporous and Mesoporous Materials.
84, 223 (2005).
13. F. Fajula, A. Galarneau and F. Di Renzo, Microporous and Mesoporous Materials.
82, 227 (2005).
14. B.F. Chmelka, J. Nolla, C.A. Steinbeck, G.L. Athens and D. Wildemuth, US Patent
Application No. 20070248760 (25 October, 2007).
15. A. Harutyunyan, E. Mora and T. Tokune, US Patent Application No. 20060228289
(12 October, 2006).
16. Z. Ren, J.G. Wen, J.Y. Lao, W. Li and S. Chen, US Patent Application No. 20060057050
(16 March, 2006).
17. E. Flahaut, Ch. Laurent, and A. Peigney, Carbon. 43 (2), 375 (2005).
18. Y. Soneda, L. Duclaux, and F. Beguin, Carbon. 40 (6), 965 (2002).
19. A. Harutyunyan, L. Grigorian and T. Tokune, US Patent No. 6974492 (13 December,
2005).
20. Yu.I. Sementsov, A.V. Melezhyk, G.P. Prykhodko, N.A. Havryliuk, M.L. Piatkovskyi and
V.V. Yanchenko, in: Physico-chemistry of nanomaterials and supramolecular structures,
edited by A.P. Shpak, P.P. Gorbik (Naukova dumka, Kyiv, 2007), vol. 2, pp. 116—158.
Tehnologia Poverhni. 3 (3), 335 (2012).
22. V.V. Brei, Th eoretical and Experimental Chemistry. 41 (3), 165 (2005).
23. A.V. Melezhyk, V.V. Yanchenko and Yu.I. Sementsov, in: Hydrogen materials science
and chemistry of carbon nanomaterials, edited by T.N. Veziroglu, S.Yu. Zaginaichenko,
D.V. Schur, B. Baranowski, A.P. Shpak, V.V. Skorokhod and A. Kale (Springer,
Dordrecht, 2007), pp. 529—537.
24. A. Corma, Chem. Rev. 95 (3), 559 (1995).
25. E.O. Koval’ska, S.V. Zhuravskyi, Yu. I. Sementsov and G. P. Prikhod’ko, in: Ukrainian
conference with international participation of young scientists “Chemistry, physics
surface technology”: Book of Abstract (Kyiv, 2012), pp. 13—14.
26. V.O. Khavrus, N.V. Lemesh, S.V. Gordijchuk, A.I. Tripolsky, T.S. Ivashchenko and
P.E. Strizhak, Physics and chemistry of solid state. 10 (2), 417 (2009).
27. E.O. Koval’ska, Yu. I. Sementsov and G. P. Prikhod’ko, Ukraine Patent No. 70847 (25
June, 2012).
28. S. Rajagopal, D. Nataraj, O. Yu. Khyzhun, Yahia Djaoued, Jacques Robichaud,
K. Senthild and D. Mangalaraj, Cryst.Eng.Comm. 13 (7), 2358 (2011).
29. W.Z. Qian, T. Liu, Fei Wei, ZW Wang, G. Luo, Hao Yu and Z.F. Li, Carbon. 41 (13),
2613 (2003).
30. S.-G. Yu, W.-K. Yi, J.-H. Lee, Y.-W. Jin and T.-W. Jeong, United States Patent
Application No. 20030141179 A1 (July 31, 2003).
31. F.R. García-García, M. Pérez-Cabero, D.M. Nevskaia, I. Rodríguez-Ramos and
A. Guerrero-Ruiz, Catalysis Today. 133-135 (4-6), 815 (2008).
32. M.Corriasa, B.Caussat, A.Ayral, J.Durand, Y.Kihn, Ph.Kalck and Ph.Serp, Chem.
Eng. Sci. 58 (19), 4475 (2003).
33. Y.-L. Li, I.A. Kinloch, M.S.P. Shaff er, J. Geng, B. Johnson and A.H. Windle, Chem.
Phys. Lett. 384 (1-3), 98 (2004).
34. F. Wei, Q. Zhang, W.-Z. Qian, H. Yu, Y. Wang, G.-H. Luo, G.-H. Xu and D.-Z. Wang,
Powd. Techn. 183 (1), 10 (2008).
35. A.V. Melezhik, Yu. I. Sementsov and V.V. Yanchenko, Russian Journal of Applied
Chemistry. 78 (6), 924 (2005).
36. Y. Yang, M.P. Grosboll and K.A. Smith, United States Patent Application
No. 20050074392 A1 (April 7, 2005).
37. A. Harutyunyan, United States Patent Application No. 20050123467 A1 (June 9,
2005).
38. D. Moy and A. Chishti, US Patent No. 6,221,330 (April 24, 2001).
39. R.E. Smalley, R.H. Hauge, P.A. Willis and W.C. Kittrell, US Patent Application
No. 2002/0102203 A1 (August 1, 2002).
40. I.M. Glikina, V.S. Novitskiy, N.F Tyupalo and M.A. Glikin, Khim. prom. Ukrainy.
(3), 24 (2003) [in Russian].
41. V.V. Yanchenko, Yu.I. Sementsov and O.V. Melezhik, Ukraine Patent No. 15733 (17
July, 2006) (utility model) [in Ukrainian].
42. A. Harutyunyan and S. Isobe, US Patent Application No. 20050121545 A1 (June 9,
2005).
43. D. Moy and A. Chishti, US Patent Application No. 20030190277 A1 (October 9, 2003).
44. P.M. Ajayan, B. Wei, H. Zhu, C. Xu and D. Wu, US Patent Application No. 20030161950 A1 (August 28, 2003).
2006).
46. R. Smalley and R.H. Hauge, US Patent Application No. 20030147802 A1 (August 7,
2003).
47. D. Moy and A. Chishti, US Patent No. 7097821 (August 29, 2006).
48. D. Moy and A. Chishti, US Patent No. 7144564. (December 5, 2006).
49. D. Moy and A. Chishti, US Patent No. 7074379 (July 11, 2006).
50. O.T. Heyning, P. Bernier and M. Glerup, Chem. Phys. Lett. 409 (1-3), 43 (2005).
51. A.G. Nasibulin, A. Moisala, D.P. Brown, H. Jiang and E.I. Kauppinen, Chem. Phys.
Lett. 402 (1-3), 227 (2005).
52. A.G. Nasibulin, P.V. Pikhitsa, H. Jiang and E.I. Kauppinen, Carbon. 43 (13), 2251 (2005).
53. A. Moisala, A.G. Nasibulin, S.D. Shandakov, H. Jiang and E.I. Kauppinen, Carbon.
43 (10), 2066 (2005).
54. A.G. Nasibulin, D.P. Brown, P. Queipo, David Gonzalez, H. Jiang and E.I. Kauppinen,
Chem. Phys. Lett. 417 (1-3), 179 (2006).
55. K. Edgar and J.L. Spencer, Curr. Appl. Phys. 4 (2-4), 121 (2004).
56. M. Pinault, M. Mayne-L’Hermite, C. Reynaud, O. Beyssac, J.N.Rouzaud and
C.Clinard, Diamond Relat. Mater. 13 (4-8), 1266 (2004).
57. R.L. Vander Wal and T.M. Ticich, Chem. Phys. Lett. 336 (1-2), 24 (2001).
58. A. Barreiro, C. Kramberger, M.H. Rummeli, A. Grüneis, D. Grimma, S. Hampel,
T. Gemming, B. Büchner, A. Bachtold and T.Pichler, Carbon. 45 (1), 55 (2007).
59. F. Iskandar, S.-G. Kim, A.B.D. Nandiyanto, Y. Kaihatsu, T. Ogi and K. Okuyama,
Journal of Alloys and Compounds. 471 (1-2), 166 (2008).
60. S.H. Kim and M.R. Zachariah, Mater. Lett. 61 (10), 2079 (2007).
61. M. Gulas, M. Caplovicova, M. Michalka, F.Le Normand, M. Rayar, P. Macko and
P. Veis, Vacuum, 82 (8), 805 (2008).
62. M. Pinault, M.Mayne-L’Hermite, C. Reynaud, V.Pichot, P.Launois and D.Ballutaud,
Carbon. 43 (14), 2968 (2005).
63. A.A. Koos, M. Dowling, K. Jurkschat, A. Crossley and N. Grobert, Carbon, 47 (1),
30 (2009).
64. Y. Yao, L.K.L. Falk, R.E. Morjan, O.A.Nerushev and E.E.B.Campbell, Carbon. 45
(10), 2065 (2007).
65. M. Mayne, N. Grobert, M. Terrones R.Kamalakaran, M.Rühle, H.W.Kroto and
D.R.M.Walton, Chem. Phys. Lett. 338 (2-3), 101 (2001).
66. V.O. Khavrus, A. Leonhardt, S. Hampel, C. Täschner, C. Müller, W. Gruner, S.
Oswald, P.E.Strizhak and B.Büchner, Carbon. 45 (15), 2889 (2007).
67. A. Moisala, A.G. Nasibulin, D.P. Brown, H. Jiang, L. Khriachtchev and E. I.Kauppinen,
Chem. Eng. Sci. 61 (13), 4393 (2006).
68. M. Glerup, H. Kanzow, R. Almairac, M. Castignolles and P. Bernier, Chem. Phys.
Lett. 377 (3-4), 293 (2003).
69. V.V. Yanchenko, Yu.I. Sementsov and O.V. Melezhik, Ukraine Patent No. 69292 A
(16 August, 2004) [in Ukrainian].
70. A.P. Shpak, Yu.A. Kunitskii and V.L. Karbovskii, Cluster and nanostructured materials
(Akademperiodika, Kyiv, 2001), vol.1. [in Rassian]
71. M. Damnjanovic, I. Milosevic, T. Vukovc and R. Sredanovic, Phys. Rev B. 60 (4),
2728 (1999).
72. O.E Alon, Phys Rev B. 63, 201403(R) (2001).
68, 045408 (2003).
74. A.V. Eletskii, Phys. Usp. 40 (9), 899 (1997).
75. A.V. Eletskii, Phys. Usp. 47 (11), 1119 (2004).
76. A.V. Eletskii, Phys. Usp. 45 (4), 369 (2002).
77. Yu.E. Lozovik and A.M. Popov, Phys. Usp. 40 (7), 717 (1997).
78. V.I. Trefi lov, D.V. Schur, B.P. Tarasov, Yu.M. Shul’ga, A.V. Chernogorenko, V.K. Pishuk
and S.Yu. Zaginaichenko, editors, Fullereny — osnova materialov budushchego
(ADEF—Ukraine, Kyiv, 2001) [in Russian].
79. A. Th ess, R. Lee, P. Nikolaev, H. Dai, P. Petit, J. Robert, C. Xu, Y. H. Lee, S. G. Kim,
A.G. Rinzler, D.T. Colbert, G.E. Scuseria, D. Tománek, J.E. Fischer and R.E. Smalley,
Science. 273 (5274), 483 (1996).
80. D. Reznik, C.H. Olk, D.A. Neumann and I.R.D. Copley, Phys. Rev.B. 52 (1), 116 (1995).
81. Yu.I. Sementsov, A.V. Melezhyk, M.L. Pyatkovsky, V.V. Yanchenko, N.A. Gavrilyuk,
G.P. Prikhod’ko, A.I. Senkevich, S.L. Revo and E.A. Ivanenko, in: Hydrogen
materials science and chemistry of carbon nanomaterials, edited by T.N. Veziroglu,
S.Yu. Zaginaichenko, D.V. Schur, B. Baranowski, A.P. Shpak, V.V. Skorokhod and
A. Kale (Springer, Dordrecht, 2007), pp. 713.
82. V. Dyyakon, O.P. Dmytrenko, M.P. Kulish, Yu.I. Sementsov, N.A. Gavrylyuk,
M.M. Byelyi, Yu.E. Grabovskyi, V.B. Molodkin and G.P. Prykhod’ko, Nanosistemi,
Nanomateriali, Nanotehnologii. 5 (1), 233 (2007) [in Ukrainian].
83. O. Zhou, R.M. Fleming, D.W. Murphy, C.H. Chen, R.C. Haddon, A.P. Ramirez and
S.H. Glarum, Science. 263 (5154), 1744 (1994).
84. F. Sánchez-Bajo, A.L. Ortiz and F.L. Cumbrera, Acta Materialia. 54 (1), 1 (2006).
85. M. Profeta and F. Mauri, Phys Rev.B. 63, 245415 (2001).
86. M. Souza, A. Yorio, C. Fantini, B.R.A. Neves, M.A. Pimenta, R. Saito, A. Ismach,
E. Joselevich, V.W. Brar, Ge. G. Samsonidze, G. Dresselhaus, and M. S. Dresselhaus,
Phys. Rev.B. 69, 241403(R) (2004).
87. V.I. Nefedov, Rentgenofotoelektronnaya spektroskopiya khimicheskikh soyedineniu.
Directory (Khimiya, Moscow, 1984) [in Russian].
88. Z.R. Yue, W. Jiang, L. Wang, S.D. Gardner and C.U. Pittman, Carbon. 37 (11), 1785
(1999).
89. H.P. Boehm, Carbon. 40 (2), 145 (2002).
90. V.V. Garbuz and V.V. Zakharov, Nanostrukturnoye materialovyedyeniye. (1), 74
(2007) [in Russian].
91. V.V. Garbuz, V.V. Zakharov, L.N. Kuz’menko and S.V. Nuzhd, in: IX International
Conference Hydrogen materials science and chemistry of carbon nanomaterials.
Abstract books, edited by D.V. Schur, S.Yu. Zaginaichenko and T.N. Veziroglu (IAHE,
Kyiv, 2005), pp. 704—705.
92. Yu.I. Sementsov, S.L. Revo, K.O. Ivanenko and S. Hamamda, Expanded graphite and
its composites, edited by M.T. Kartel (Akademperiodika, Kyiv, 2019).
93. R. J. Nemanich and S. A. Solin, Phys. Rev. B. 20 (2), 392 (1979).
94. G.I. Dovbeshko, O.P. Gnatyuk, A.A. Nazarova, Yu.I. Sementsov and E.D. Obraztsova,
Fullerenes, nanotubes, and carbon nanostructures. 13 (1), 393 (2005).
95. C.S.S.R Kumar, editor, Raman Spectroscopy for Nanomaterials Characterization,
(Springer-Verlag, Berlin-Heidelberg, 2012). DOI: 10.1007/978-3-642-20620-7.
96. M.S. Dresselhaus and G. Dresselhaus, Adv. Phys. 51 (1), 1 (2002).
State. 55 (4), 850 (2013).
98. D.S. Su, S. Perathoner and G. Centi, Chem. Rev. 113 (8), 5782 (2013).
99. K. Voitko, A. Tóth, E. Demianenko, G. Dobos, B. Berke, O. Bakalinska, A. Grebenyuk,
E. Tombácz, V. Kuts, Yu. Tarasenko, M. Kartel and K. László, J. Colloid Interface Sci.
437, 283 (2015).
100. Z. Huang, Z. Liao, W. Yang, H. Zhou, C. Fu, Y. Gong, L. Chen and Y. Kuang,
Electrochim. Acta. 245, 957 (2017).
101. T. Maiyalagan, and V.S. Saji, editors, Electrocatalysis for Low Temperature Fuel Cells:
Fundamentals and Recent Trends. (Wiley‐VCH Verlag GmbH & Co, 2017).
102. S.V. Zhuravsky, M.T. Kartel, Yu.O. Tarasenko, S. Villar-Rodil, G. Dobos, A. Toth,
J. Tuscon and K. Laszlo, Appl. Surf. Sci. 258 (7), 2410 (2012).
103. S. Ratso, I. Kruusenberg, U. Joost and R. Saar, Int. J. Hydrogen Energy. 41 (47),
22510 (2016).
104. Q. Wei, X. Tong, G. Zhang, J. Qiao, Q. Gong and Sh. Sun, Catalysts. 5 (3), 1574 (2015).
105. R. Arrigo, M. Hävecker, S. Wrabetz, R. Blume, M. Lerch, J. McGregor, E.P.J. Parrott, J.A. Zeitler, L.F. Gladden, A. Knop-Gericke, R. Schlögl and D.Sh. Su, J. Amer. Chem. Soc. 132 (28), 9616 (2010).
106. K.A. Wepasnick, B.A. Smith, J.L. Bitter and D.H. Fairbrother, Anal. Bioanal. Chem. 396 (3), 1003 (2010).
107. L. He, F. Weniger, H. Neumann and M. Beller, Angew. Chem. 55 (41), 12582 (2016).
108. S. van Dommele, A. Romero-Izquirdo, R. Brydson, K.P. de Jong and J.H. Bitter, Carbon. 46 (1), 138 (2008).
109. E.G. Rakov, Nanotrubki i fullereny: Uchebn. posobiye (Universityetskaya kniga, Logos, Moscow, 2006) [in Russian].
110. O.Yu. Podyacheva, S.V. Cherepanova, A.I. Romanenko, L.S. Kibis, D.A. Svintsitskiy and A.I. Boronin, Carbon. 122, 475 (2017).
111. E. Xu, J. Wei, K. Wang, Z. Li, X. Gui, Yi Jia, H. Zhu and D. Wu, Carbon. 48 (11), 3097 (2010).
112. Yu.I. Sementsov, O.A. Cherniuk, S.V. Zhuravskyi, Wang Bo, K.V. Voitko,
O.M. Bakalinska and M.T. Kartel, Himia, Fizika ta Tehnologia Poverhni. 12 (2), 135 (2021).
113. K.V. Voitko, D.M. Haliarnyk, O.M. Bakalinska and M.T. Kartel, Catal. Lett. 147 (8), 1966 (2017).
СHAPTER 4
of Physics and Chemistry of Loose and Layered Crystal Structures (Harkov, 1988), p.112.
[in Russian]
2. I.G. Chernysh, L.A. Mironova, O.P. Yatsyuk and Yu.I. Sementsov, Th ermodynamic analysis
of heterogeneous systems in the process of obtaining modifi ed graphite (VINITI №
6105, Kiev, 1989) [in Russian]
3. I.G. Chernysh, O.P. Yatsyuk, A.A. Chuyko, Yu.I. Sementsov and L.L. Voznaya, A.S.
USSR No. 1686792 (22 June, 1991) [in Russian]
4. I.G. Chernysh, Yu.I. Sementsov, O.P. Yatsyuk, L.L. Voznaya and L.A Mironova, Hightemperature
surface modifi cation of dispersed graphite with zinc oxide (VINITI № 3404,
Kyiv, 1990) [in Russian].
5. I.G. Chernyish, Yu.I. Sementsov, O.P. Yatsyuk, L.L. Voznaya and L.L. Vovchenko, Physico-
chemical properties of thermally expanded graphite modifi ed with iron compounds
(VINITI № 3403, Kiev, 1990) [in Russian].
6. O.P. Yatsyuk, Ph.D. dissertation, Institute of Surface Chemistry National Academy of
Sciences of Ukraine, Kyiv, 1992. [in Russian]
7. I.G. Chernysh, I.I. Karpov, G.P. Prihodko and V.M. Shay, Physico-chemical properties
of graphite and its compounds (Nauk. dumka, Kyiv, 1990). [in Russian].
8. D.D.L. Chung, J. Matter. Sci. 22 (12), 4190 (1987).
9. Yu.N. Novikov and M.E. Volpin, Zhurn. Vsesoyuznogo himicheskogo obschestva
im. D.I. Mendeleeva. 32, (1), 69 (1987) [in Russian].
10. G.S. Petrov, A.C. Skoropanov and A.A. Vecher, Russian chemical reviews. 56 (8), 701
(1987).
11. A.W. Morawski and K. Kallucki, Carbon. 27 (6), 951 (1989).
12. I.G. Chernysh, N.F. Gadzyra, Yu.I. Sementsov and O.P. Yatsyuk, in: Abstract Book
1st All-Union. conf. “Chemistry and physics of interstitial compounds” (Rostov–na–
Donu, 1990), p. 40. [in Russian].
13. I.G. Chernysh, N.F. Gadzyra, Yu.I. Sementsov and O.P. Yatsyuk, Th e eff ect of iron
chloride modifi cation of the residual graphite bisulfate compound on the structural
features of expanded graphite (VINITI №3405, Kyiv, 1990) [in Russian].
14. P.C. Eklund, in: Intercalation in Layered Materials: Proceedings of the 10th Course of
the Erice Summer School, edited by M. S. Dresselhaus (Springer, Boston, MA, 1986),
NATO ASI Series (Series B: Physics), vol.148, pp. 167—172.
15. Yu. I. Sementsov, L.G. Koval, V.P. Didukh and V.I. Lysov, Him. prom. Ukraine. (4),
34 (1994). [in Ukrainian]
16. Yu.I. Sementsov, L.G. Koval and A.A. Chuyko, Ekotehnologii i resursozberezhenie.
(2), 27 (1997). [in Russian]
17. Yu.I. Sementsov, M.L. Pyatkovsky, G.P. Prikhod’ko, V.M. Ogenko, I.G. Sidorenko
and V.V. Yanchenko, in: Chemistry, physics and technology of surfaces, Interdepartamental
Digest of Scientifi c Papers, edited by O.O. Chuiko (NAS of Ukraine. Institute
of Surface Chemistry, Kyiv, 2002), iss. 8, pp. 190—214.
18. S.A. Solin, Adv. Chem. Phys. 49, 455 (1982).
19. S.V. Lyubchik and V.V. Shapranov, Functional Materials. 2, 124 (1995).
20. M.V. Savos’kin, T.V. Khabarova, A.P. Yaroshenko, V.V. Shapranov, V.A. Kucherenko
and S.B. Lyubchik, RF Patent No. 2057064 (27 March, 1996). [in Russian]
promislovist Ukraine. (3), 16 (2000) [in Ukrainian].
22. K.E. Mahorin, A.P. Kozhan and V.V. Veselov, Him. tehnologiya. (2), 3 (1985). [in
Russian].
23. R. Schlögl, P. Bowen, G.R. Miiward, Jones IV. and H.P. Boehm, J. Chem. Soc, Faraday
Trans, I. 79, 1793 (1983).
24. G. Sirokman, A. Mastalir, A. Molnar, M.Bartók, Z.Schay and L.Guczi, Carbon. 28 (1),
35 (1990).
25. T.A. Kizina, A.C. Skoropanov, A.A. Vecher, G.A. Protsenko, Yu.N. Novikov and
M.E. Volpin, Zhurnal obshchei khimii. 56 (9), 1936 (1986). [in Russian].
26. A.C. Skoropanov, T.A. Kizina, N.G. Rafalskiy, A.A. Vecher, Yu.N. Novikov and
M.E. Volpin, Zhurnal neorgan. khimii. 29 (10), 2521 (1984). [in Russian]
27. Yu. I. Sementsov, M. L. Pyatkovskii and I. G. Chernysh, Powder Metallurgy and
Metal Ceramics. 37 (9–10), 545 (1998).
28. I.D. Buraya, L.L. Voznaya L.L. Vovchenko, Yu. I. Sementsov, I. G. Chernysh and
O.P. Yatsyuk, Himiya tverdogo topliva. (6), 106 (1990) [in Russian].
29. M.L. Pyatkovskiy, Yu.I. Sementsov and I.G. Chernysh, Khimichna promyslovist Ukrainy.
(3), 42 (1996).
30. Yu.A. Nikitin, M.L. Pyatkovskii and I.G. Chernysh, Powder Metallurgy and Metal Ceramics.
37 (5/6), 253 (1998).
31. S.V. Shulyepov, Fizika uglyerodnykh materialov («Myetallurgiya» Chyelyabinskoye
otdyelyeniye, Chyelyabinsk, 1990) [in Russian].
32. Yu.I. Sementsov, M.T. Kartel, N.A. Mykhailenko and V.V. Yanchenko, Ukraine Patent
No. 92773 (10 September, 2014) [in Ukrainian].
33. Yu.I. Sementsov, M.T. Kartel, N.A. Mykhailenko and V.V. Yanchenko, Ukraine Patent
No. 91436 (10 July, 2014) [in Ukrainian].
34. Yu.I. Sementsov, M.T. Kartel, N.A. Mykhailenko and V.V. Yanchenko, Ukraine Patent
No. 118743 (11 March, 2019) [in Ukrainian].
35. Jong-sam Yu, US Patent Application No. 20120219719 (30 August, 2012).
36. T. Ueda and T. Shiomi, US Patent No. 5240769 (31 August, 1993).
37. Z. Wang, M.D. Shirley, St.T. Meikle, R.L.D. Whitby and S.V. Mikhalovsky, Carbon.
47 (1), 73 (2009).
38. A.V. Melezhik and A.A. Chuyko, Khimicheskaya tekhnologiya. (2), 3 (1992).
39. Yu.I. Sementsov, S.L. Revo, K.O. Ivanenko and S. Hamamda, Expanded graphite and its
composites, edited by M.T. Kartel (Akademperiodika, Kyiv, 2019).
40. A.K.Geim and K.S.Novoselov, Nat. Mater., 6, 183 (2007).
41. C.N.R.Rao, A.K.Sood, K.S.Subrahmanyam and A.Govindaraj, Angew Chem Int. Ed
Engl, 48 (42), 7752 (2009).
42. C.N.R. Rao, A.K. Sood, R .Voggu and K.S. Subrahmanyam, J. Phys. Chem. Lett.,
1 (2), 572 (2010).
43. B. Jang and A. Zhamu, J.Mater. Sci., 43 (15), 5092 (2008).
44. E.D. Graifer, V.G. Makotchenko, A.S. Nazarov, S.J. Kim and V.E. Fedorov. Russ.
Chem. Rev. 80 (8), 751 (2011).
45. V. Dhand, K.Y. Rhee, H.J. Kim and D.H. Jung, Journal of Nanomaterials. 2013,
763953, (2013). https://doi.org/10.1155/2013/763953.
46. S. Yang, S. Brüller, Z.-S. Wu, Z. Liu, K. Parvez, R. Dong, F. Richard, P. Samorì, X. Feng
and K. Müllen, J. Am. Chem. Soc. 137 (43), 13927 (2015).
Yu. Grebel’na, V. Styopkin, W. Bo and Yu. Stubrov, Advanced Materials Letters.
8 (3), 212 (2017).
48. Y. Sementsov, S. Makhno, M. Kartel, W. Bo, G. Dovbeshko, V. Styopkin and
S. Nedilko, International Journal of Innovative Science, Engineering & Technology.
4 (7), 71 (2017).
49. S.G. Nedilko, S. Revo, V. Chornii, V. Scherbatskyi, K. Ivanenko, M. Nedielko, Y. Sementsov,
M. Skoryk, A. Nikolenko and V. Strelchuk, Nanoscale Res Lett. 12, 28
(2017).
50. P. Tripathi, Ch.R.P. Patel, M.A. Shaz and O. N. Srivastava, Materials Science (condmat.
mtrl-sci) (2013), https://doi.org/10.48550/arXiv.1310.7371
51. K.S. Rao, J. Senthilnathan, Y.-F. Liu & M. Yoshimura, Scientifi c reports. 4, 4237 (2014).
https://doi.org/10.1038/srep04237
52. Yu.I. Sementsov and M.T. Kartel, Chemical industry Ukraine. (3), 56 (2015).
53. M. Kartel, Yu. Sementsov, S. Makhno, W. Zhang, X. Zhang, L.V. Gen and Bo Wang,
IJISET. 4 (7), 203 (2017).
54. Yu.I. Sementsov, S.M. Makhno, M.T. Kartel, S.M. Gozhdzins’kii, K.O. Ivanenko,
Yu.V. Grebel’na, A. Ding, B. Wang, D. Wang and T. Li, Ukraine Patent Application
No. a202102264 (28 April, 2021).
55. S.E. McNeil, editor, Characterization of Nanoparticles Intended for Drug Delivery
(Humana Press, New York, 2011). DOI 10.1007/978-1-60327-198-1
56. E.O. Kovalska and Yu.I. Sementsov, in: Nanomaterials Imaging Techniques, Surface
Studies, and Applications, edited by O. Fesenko, L. Yatsenko and M. Brodin (Springer,
New York, 2013), pp. 61—72.
57. C.P. Bosnyak and K.W. Swogger, USA Patent No. 20170037252 (9 February, 2017).
58. D. Wang, Di Lijie, D. Xianbo and V. Zhongqiang, China Patent No. 107317034 (A)
(03 November, 2017).
59. Yu.I. Sementsov and N.T. Kartel, in: Surface physics and chemistry, edited by N.T. Kartel
and V.V. Lobanov (Interservis, Kyiv, 2018). vol. 2, pp.1035—1047 [in Russian].
60. J. Kim, J. Oh, K. Y. Lee, I. Jung and M. Park, Composites Part B. 114, 445 (2017).
61. S. Lin, M.A.S. Anwer, Y. Zhou, A. Sinha, L. Carson and H.E. Naguib, Composites Part B. 132, 61 (2018).
СHAPTER 5
doi.org/10.1016/j.eurpolymj. 2016.04.011
2. X. Yang, T. Zou, C. Shi, E. Liu, C. He and N. Zhao, Materials Science and Engineering:
A. 660, 11 (2016).
3. L. Banks-Sills, D.G. Shiber, V. Fourman, R. Eliasi and A. Shlayer, Composites Part B:
Engineering. 95, 335 (2016). https://doi.org/10.1016/j.compositesb.2016.04.015.
4. W. Feng, L. Zhang, Y. Liu, X. Li, L. Cheng, S. Zhou and H. Bai, Materials Science and
Engineering: A. 637, 123 (2015).
5. T. H. Nam, K. Goto, Y. Yamaguchi, E.V.A. Premalal, Y. Shimamura, Y. Inoue, K.
Naito and S. Ogihara, Composites Part A: Applied Science and Manufacturing. 76,
289 (2015).
6. A.V. Kalgin, Yu.Ye. Kalinin, A.M. Kudrin, A.V. Malyuchenkov, Yu.V. Panin and
A.V. Sitnikov, Vestnik VGTU. (112), 147 (2011) [in Russian].
7. S.P. Savin, Izvestiya Samarskogo nauchnogo tsentra Russian Academy of Sciences.
(4), 1 (2012) [in Russian].
8. T. Cowan, E. Acar and C. Francolin, Mechanical and Aerospace Engineering Department
University of Florida. ST1, 1 (2006).
9. V. Zazimko, Novyi oboronnyi zakaz. Strategii. (2), 56 (2017) [in Russian].
10. S. Paunikar and S. Kumar, Computational Materials Science. 95, 21 (2014).
11. A.V. Makunin and N.G. Chechenin, Polimer-nanouglerodnye materialy dlya kosmicheskikh
tekhnologiy. Chast’ I. Sintez i svoistva nanouglerodnykh structur: Uchebnoe
posobie (Universitetskaya kniga, Moscow, 2011) [in Russian].
12. Y. Tian, H. Zhang and Z. Zhang, Composites: Part A. 98, 1 (2017), https://doi.org/10.1016/j.compositesa.2017.03.007.
Journal of Adhesion and Adhesives. 75, 174 (2017). https://doi.org/10.1016/j.
ijadhadh.2017.03.012.
14. S. Lin, M.A.S. Anwer, Y. Zhou, A. Sinha, L. Carson and H. Naguib, Composites Part
B. 132, 69 (2018), https://doi.org/10.1016/j.compositesb.2017.08.010.
15. M. Liang and K.L. Wong, Energy Procedia. 110, 156 (2017).
16. A. B. Irez, E. Bayraktar and I. Miskioglu, Procedia Engineering. 184, 486 (2017).
17. M. Eesaee and A. Shojaei, Composites: Part A. 63, 149 (2014).
18. N.R.R. Anbusagar, K. Palanikumar and P.K. Giridharan, Composite Structures. 125,
336 (2015), doi: https://doi.org/10.1016/j.compstruct.2015.02.016.
19. M. Boumaza, R. Khan and S. Zahrani, Th in Solid Films. 620, 160 (2016), https://doi.
org/10.1016/j.tsf.2016.09.035.
20. Yu.I. Sementsov and N.T. Kartel, in: Surface physics and chemistry, edited by
N.T. Kartel and V.V. Lobanov (Interservis, Kyiv, 2018). vol. 2, pp. 968—1008 [in
Russian].
21. E.G. Rakov, Nanotrubki i fullereny: Uchebn. posobiye (Universityetskaya kniga, Logos,
Moscow, 2006) [in Russian].
22. M.M.J. Treacy, T.W. Ebbesen and J.M. Gibson, Nature. 381, 678 (1996).
23. W. Bauhofer and J.Z. Kovacs, Comp. Sci. Technol. 69 (10), 1486 (2009).
24. L. Bokobza, Polymer. 48, 4907 (2007).
25. Yu.I. Sementsov, A.V. Melezhyk, M.L. Pyatkovsky, V.V. Yanchenko, N.A. Gavrilyuk,
G.P. Prikhod’ko, A.I. Senkevich, S.L. Revo and E.A. Ivanenko, in: Hydrogen materials
science and chemistry of carbon nanomaterials, edited by T.N. Veziroglu, S.Yu.
Zaginaichenko, D.V. Schur, B. Baranowski, A.P. Shpak, V.V. Skorokhod and A. Kale
(Springer, Dordrecht, 2007), pp. 757—763.
26. Yu.I. Sementsov, N.A. Gavrilyuk, T.A. Alekseeva, O.N. Lazarenko and V.V. Yanchenko,
Nanosistemy, nanomaterialy, nanotekhnologii. 5 (2), 351 (2007) [in Russian].
27. Yu. Sementsov, N. Gavriluk, G. Prikhod’ko, T. Aleksyeyeva, O. Lasarenko,
V. Yanchenko, in: Carbon Nanomaterials in Clean Energy Hydrogen Systems. NATO
Science for Peace and Security Series C: Environmental Security. edited by B. Baranowski,
S. Zaginaichenko, D. Schur, V. Skorokhod and A. Veziroglu (Springer, Dordrecht,
2008), pp.327—334.
28. Yu.I. Sementsov, T.A. Aleksyeyeva, N.A. Gavriluk, O.N. Lasarenko and
G.P Prikhod’ko, Surface. (13), 224 (2007) [in Russian].
29. Yu.I. Sementsov, M.L. Piatkovskyi, G.P Prikhod’ko, V.S. Stupak, N.I. Pas’ko,
N.V. Savel’eva, A.V. Melezhyk and V.V. Yanchenko, Khim. prom. Ukraine. (1), 25
(2009) [in Russian].
30. O.V. Kotenok, S.M. Makhno, G.P Prikhod’ko and Yu.I. Sementsov, Surface. 1(16),
213 (2009) [in Ukrainian].
31. Yu.I. Sementsov, S.N. Makhno, S.V. Zhuravsky and M. T. Kartel, Himia, Fizika ta
Tehnologia Poverhni. 8 (2), 107 (2017).
32. Yu.I. Sementsov, A.V. Melezhyk, G.P. Prykhodko, N.A. Havryliuk, M.L. Piatkovskyi
and V.V. Yanchenko, in: Physico-chemistry of nanomaterials and supramolecular
structures, edited by A.P. Shpak and P.P. Gorbik (Naukova dumka, Kyiv, 2007), vol.
2, pp. 116—158. [in Russian].
33. A.K. Mikitaev, G.V. Kozlov and G.E. Zaikov, Polymer nanocomposites: variety of structural forms and applications (Nauka, Moscow, 2009) [in Russian].
15 (2), 372 (2014).
35. O.M. Garkusha, S.M. Makhno, G.P. Prikhod’ko, Yu.I. Sementsov and M. T. Kartel,
Himia, Fizika ta Tehnologia Poverhni. 1 (1), 103 (2010).
36. Yu. Sementsov, G. Prikhod’ko, N. Kartel, M. Tsebrenko, T. Aleksyeyeva and N. Ulynchych,
in: Carbon Nanomaterials in Clean Energy Hydrogen Systems. NATO Science
for Peace and Security Series C: Environmental Security, edited by S. Zaginaichenko,
D. Schur, V. Skorokhod, A. Veziroglu and B. Ibrahimoğlu (Springer, Dordrecht,
2011), pp.183—195.
37. Yu. Sementsov, G. Prikhod’ko, N. Kartel, T. Aleksyeyeva and M. Tsebrenko, Himia,
Fizika ta Tehnologia Poverhni. 4 (2), 191 (2013).
38. O.S. Nychyporenko, O.P. Dmytrenko, M.P. Kulish, T.M. Pinchuk-Rugal, Yu.Ye.
Grabovskiy, M.A. Zabolotnyi, V.V. Strelchuk, A.S. Nikolenko and Yu.I. Sementsov,
Nanosistemi, Nanomateriali, Nanotehnologii. 13 (4), 673 (2015).
39. P.K. Mallick, Processing of Polymer Matrix Composites: Processing and Applications
(CRC Press, Boka Raton, 2017).
40. J.N. Coleman, U. Khan, W.J. Blau and Y.K. Gun’ko, Carbon. 44 (9), 1624 (2006).
41. F. Wei, Q. Zhang, W.-Z. Qian, H. Yu, Y. Wang, G.-H. Luo, G.-H. Xu and D.-Z. Wang,
Powder Technol. 183 (1), 10 (2008).
42. Y. Hao, Z. Qunfeng, W. Fei, Q. Weizhong and L. Guohua, Carbon. 41 (14), 2855
(2003).
43. O.P. Krivoruchko, N.I. Maksimova, V.I. Zaikovskii and A.N. Salanov, Carbon. 38,
1075 (2000).
44. Yu.I. Sementsov and N.T. Kartel, Himia, Fizika ta Tehnologia Poverhni. 10 (2), 174
(2019).
45. Y. Zare, Composites: Part A. 84, 158 (2016), https://doi.org/10.1016/j.compo site sa.
2016.01.020
46. E.O. Koval’ska, Ph.D. dissertation, Chuiko Institute of Surface Chemistry of National
Academy of Sciences of Ukraine, 2013 [in Ukrainian].
47. J. Rausch, R.C. Zhuang and E. Mader, Composites Part A. 41, 1038 (2010).
48. L. Vaisman, H.D. Wagner and G. Marom, Adv. Colloid Interface Sci. 128–130, 37.
(2006). https://doi.org/10.1016/j.cis.2006.11.007.
49. H.-S. Kim, W.I. Park, M. Kang and H.-J. Jin, J. Phys. Chem. Solids. 69 (5–6), 1209
(2008). https://doi.org/10.1016/j.jpcs.2007.10.062.
50. M. Bystrzejewski, A. Huczko, H. Lange, T. Gemming, B. Büchner and M.H. Rümmeli,
J. Colloid Interface Sci. 345 (2), 138 (2010). https://doi.org/10.1016/j.
cis.2010.01.081.
51. L. Zhao and L. Gao, Colloids Surf. A. 224 (1—3), 127 (2003). https://doi.org/10.1016/
S0927-7757(03)00155-9.
52. M.S. Strano, V.C. Moore, M.K. Miller, M.J. Allen, E.H. Haroz and C. Kittrell, J. Nanosci.
Nanotech. 3 (1–2), 81 (2003). https://doi.org/10.1166/jnn.2003.194.
53. G. Wypych, Hand book of Plasticizers. (Chem. Tec. Publishing., Toronto, New York,
2004).
54. V.S. Izotov and Yu.A. Sokolova, Khimicheskie dobavki dla modifi katsii betona (Paleotip,
Moscow, 2006) [in Russian].
55. M.N. Vauchskiy, Vestnik grazhdanskikh inzhenerov. (2), 44 (2005) [in Russian].
56. M.E. Yudovich and A.N. Ponimarev, Stroyprofi le’. (6-07), 49 (2007) [in Russian].
XXI veka. (3), 69 (2007) [in Russian].
58. S.A. Dergunov and V.N. Rubtsova, Stroyprofi le’. 7 (77), 13 (2009) [in Russian]. http://
stroyprofi le.com/fi les/pdf/7-09-13.pdf.
59. Yu. I. Sementsov and O. V. Melezhik, TU U 24.1-03291669-009:2009 (carbon nanotubes)
№ 02568182/095617 (01 September, 2009).
60. Yu.I. Sementsov, E.O. Kovalska, N.T. Kartel and O.Yu. Chunihin, Himia, Fizika ta
Tehnologia Poverhni. 7 (2), 202 (2016).
61. M.S. Ovcharenko, Ph.D. dissertation, Sumy State University, 2013. Taken from
62. S.E. McNeil, Characterization of Nanoparticles Intended for Drug Delivery (Humana
Press, New York, 2011).
63. L.E. Copeland, D.L. Kantro and G. Verbeck, Bulletin. 153, (1), 429 (1960).
64. L.E. Copeland and D.L. Kantro, in: Th e chemistry of cements, edited by H.F.W. Taylor
(Academic Press, London, 1964), vol. 1, pp. 313—370.
65. G.C. Bye, Portland cement: composition, production and properties (Th omas Telford
Ltd., London, 2009).
66. A.S. Ryzhov and L.N. Potselueva, Engineering and construction journal. 2 (12), 49
(2010) [in Russian].
67. A.V. Krestinin, Russian Nanotechnologies. 2 (5–6), 18 (2007).
68. E.V. Korolev, Yu.M. Bahzenov and V.A. Beregovoi, Building Materials. (8), 2 (2006).
69. A.F. Khuzin, M.G. Gabidullin, I.R. Badertdinov, R.Z. Rakhimov, F.P. Abramov, R.E.
Yumakulov, A.Sh. Nizembaev and E.M. Perepelica, Izvestiya KSUAE. Stroitel’nye
materialy i izdeliya. 1 (23), 221 (2013) [in Russian].
70. H.W. Zhou, L. Mishnaevsky Jr., H.Y. Yi, Y.Q. Liu, X. Hu, A. Warrier and G.M. Dai,
Composites Part B: Engineering. 88, 201 (2016).
71. G. Ferro, J.-M. Tulliani and S. Musso, Frattura ed Integrità Strutturale. 5 (18), 34
(2011).
72. N.D. Devatkov, M.V. Golant and O.V. Beletskiy, Millimeter waves and their role in life
processes (Radio i svaz’, Moscow, 1991) [in Russian].
73. Yu.B. Grigorov, M.A. Pustovoyt, Yu.P. Gnidenko, B.V. Berezhnov and S.L. Sokur,
Internatıonal medıcal journal. 11 (3), 115 (2005).
74. A.B. Gapeev and N.K. Chemeris, Biomeditsinskie tekhnologii i radioelektronika.
(2–4), 44 (2007).
75. A.P. Krause, Ph.D. Th esis, University of Nebraska Lincoln, 2012.
76. V.A. Krutikov, A.A. Didik, G.I. Yakovlev, V.I. Kodolov and S.G. Shuklin, RF Patent
No. 2281262 (10 August, 2006).
77. A.N. Ponomarev, J. Constr. Eng. 6, 25 (2009).
78. M.E. Yudovich, A.N. Ponomarev and S.I. Gareev, Constr. mater. 3, 2 (2008).
79. V.A. Perfi lov, U.V. Alatortseva, M.I. Dmitruk and I.L. Zhoga, News of higher education
institutions, Construction. (8), 17 (2009).
80. Yu.I. Sementsov, Formation of structure and properties of sp2-carbon nanomaterials and
functional composites with their participation (Interservis, Kyiv, 2019) [in Ukrainian].
81. M. Kartel, Yu. Sementsov, S. Mahno, V. Trachevskiy and W. Bo. Universal Journal of
Materials Science. 4 (2), 23 (2016). DOI: 10.13189/ujms.2016.040202.
82. M. Malagù, M. Goudarzi, A. Lyulin, E. Benvenuti and A. Simone, Composites Part B. 131, 260 (2017).
84. S.L. Revo, F.V. Lozoviy, K.O. Ivanenko and T.G. Avramenko, Physics and chemistry
of solid state. 11 (4), 1029 (2010).
85. G.H. Chen, D.I. Wu, W.G. Weng and W.-L. Yan, Polymer engineering and science.
41, 2148 (2001).
86. G.I. Dovbeshko, V.S. Kopan, S.L. Revo, M.M. Nishchenko, G.P. Prikhod’ko, M.L. Piatkovskii,
Yu.I. Sementsov and M. Westermayer, Metallofi zika i noveyshie tehnologi.
27 (3), 1001 (2005).
87. Yu.I. Sementsov, G.P. Prihodko, S.L. Revo, A.V. Melezhik, M.L. Pyatkovskii and
V.V. Yanchenko, Nanosistemyi, nanomaterialyi, nanotehnologii. 1 (1), 173 (2003).
88. S.L. Revo, T.G. Avramenko and E.A. Ivanenko, Agricultural Engineering, Research
Papers. 45 (1), 67 (2013).
89. Yu.G. Frolov, Kurs kolloidnoy khimii. Poverkhnostnye yavleniya i dispersnye sistemy.
(Khimiya, Moscow, 1989) [in Russian].
90. V.A. Balusov and A.N. Tikhonov, Klasternye materialy — novyy klass plastmass s
ultradispersnym napolnitelem (LDNTP, Leningrad, 1988). [in Russian].
91. S.J. Gregg and K.S.W. Sing, Adsorption, surface area and porosity, 2nd ed. (Academic
Press, London, 1982).
92. I.D. Simonov-Emelyanov, V.N. Kuleznev and L.Z. Trofi micheva, Plasticheskie
massyi. (5), 61 (1989) [in Russian].
93. A.A. Rusakov, X-ray analysis of metals and semiconductors (Metalurgiya, Moscow,
1969) [in Russian].
94. Y. Miyamoto, C. Nakafuku and T. Takemura, Polym. J. 3, 122 (1972).
95. M.A. Martyinov and K.A Vyilegzhagina, X-ray polymers (Himiya, Leningrad, 1972)
[in Russian].
96. Y.-W. Mai and Z.-Z. Yu, editors, Polymer nanocomposites (Woodhead Publishing
Limited and CRC Press LLC, Cambridge, Boca Raton, 2006).
97. D. Wu, C. Zhou, X. Fan, D. Mao and Z. Bian, J. Appl. Polym. Sci. 99 (6), 3257
(2006).
98. J.W. Huang, J. Polym. Sci., Part B: Polym. Phys. 46 (6), 564 (2008).
99. A.A. Ohlopkova and A.G. Parnikova, Izvestiya Samarskogo nauchnogo tsentra Rossiyskoy
akademii nauk. 13 (1(2)), 394 (2011).
100. T. G. Avramenko, G. A. Maksimova, E. A. Ivanenko, V.V. Mikhailov, I.P. Shevchenko
and S.L. Revo, Surface Engineering and Applied Electrochemistry. 51 (6), 509
(2015).
101. A.L. Efros, Physics and geometry of disorder (Nauka, Moscow, 1982) [in Russian].
102. A.L. Efros and B.I. Shklovskii, Phys. Stat. Sol. Ser. B. 76 (2), 475 (1976).
103. S.M. Aharoni, J. Appl. Phys. 43 (5), 2463 (1972).
104. V.A. Sotskov, Fizika i tehnika poluprovodnikov. 39 (2), 269 (2005) [in Russian].
105. B.I. Shklovskiy and A.L. Efros, Electronic properties of doped semiconductors (Nauka,
Moscow, 1979) [in Russian].
106. H. Sher and R. Zallen, J. Chem. Phys. 53 (9), 3759 (1970).
107. V. Panwar and R.M. Mehra, Eur. Polym. J. 44, 2367 (2008).
108. L.I. Melnik, D.O. Budya and V.A. Bil, Komunalne gospodarstvo mist. 103, 125 (2012) [in Ukrainian].
109. S. Ramirez-Garcia, S. Alegret, S. Cespedes and R.J. Forster, Anal. Chem. 76, 503 (2004).
111. F. El-Tantawy, K. Kamada and H. Ohnabe, Mater. Lett. 56, 112 (2003).
112. T.G. Avramenko, K.O. Ivanenko, O.V. Mihalyuk and S.L. Revo, Visnik Kiyivskogo
nats. un-tu imeni Tarasa Shevchenka. Seriya: Fiziko-matematichni nauki. (2), 271
(2013) [in Ukrainian].
113. Yu.A. Panshin, S.G. Malkevich and Ts.S. Dunaevskaya, Fluoroplastics (Himiya, Leningrad,
1978) [in Russian].
114. L.M. Ushakova, K.I. Ivanenko, N.V. Sigareva, М. І. Terets, М.Т. Kartel, Yu.І. Sementsov,
Physics and chemistry of solid state. 23 (2), 394 (2022).
115. Yu.I. Sementsov and N.T. Kartel, in: 3rd International research and practice conference:
Nanotechnology and nanomaterials (NANO-2015). Abstract book (Ivan Franko
National University of Lviv, Lviv, 2015), p. 185.
116. F. Lozovyi, K. Ivanenko, S. Nedilko, S. Revo and S. Hamamda, Nanoscale Res Lett.
11, 97 (2016). https://doi.org/10.1186/s11671-016-1315-y.
117. T.G. Avramenko, N.V. Khutoryanskaya, S.M. Naumenko, K.O. Ivanenko, S. Hamamda
and S.L. Revo, Springer Proceedings in Physics. 221, 293 (2019). https://doi.
org/10.1007/978-3-030-17759-1_20.
118. A.H. Barber, S.R. Cohen and H.D. Wagner, Appl Phys Lett. 82 (23), 4140 (2003). https://
doi.org/10.1063/1.1579568.
119. K.O. Ivanenko, L.M. Ushakova, T.G. Avramenko, S.L. Revo, M.T. Kartel and
Yu.I. Sementsov, Springer Proceedings in Physics. 246, 685 (2021). https://doi.
org/10.1007/978-3-030-51905-6_46
120. A.V. Melezhik, V.V. Yanchenko and Y.I. Sementsov, in: Hydrogen materials science
and chemistry of carbon nanomaterials, edited by T.N. Veziroglu, S.Yu. Zaginaichenko,
D.V. Schur, B. Baranowski, A.P. Shpak, V.V. Skorokhod and A. Kale (Springer,
Dordrecht, 2007), p. 529—537. https://doi.org/10.1007/978-1-4020-5514-0_67.
121. A.V. Melezhik, Yu.I. Sementsov and V.V. Yanchenko, Russian Journal of Applied
Chemistry. 78 (6), 917 (2005). https://doi.org/10.1007/s11167-005-0420-y.
122. T.M. Pinchuk-Rugal, O.P. Dmytrenko, M.P. Kulish, Y.Y. Grabovskyy, O.S. Nychyporenko,
Y.I. Sementsov and V.V. Shlapatskaya, Problems of Atomic Science and
Technology. 96 (2), 10 (2015).
123. O.S. Nychyporenko, O.P. Dmytrenko, M.P. Kulish, T.M. Pinchuk-Rugal,
Y.Y. Grabovskyy, A.M. Zabolotnyy, V.V. Strelchuk, A.S. Nikolenko and Y.I. Sementsov,
Nanosystems, Nanomaterials, Nanotechnologies. 13 (4), 673 (2015).
124. Y.I. Sementsov, M.L. Piatkovsky, N.A. Gavriliuk, G.P. Prikhod’ko, M.T. Kartel and
Y.E. Grabovsky, Chemical Industry of the Ukraine. (5), 59 (2009). [in Uktainian]
125. M.L. Minus, H.G. Chae and S. Kumar, ACS Appl. Mater. Interfaces. 4 (1), 32 (2012).
https://doi.org/10.1021/am2013757.
126. T. McNally, P. Pötschke, P. Halley, M. Murphy, D. Martin, S.E.J. Bell, G.P. Brennan,
D. Bein, P. Lemoine and J.P. Quinn, Polymer. 46 (19), 8222 (2005). https://doi.
org/10.1016/j.polymer.2005.06.094.
127. D.S. Novak, N.M. Bereznenko, T.S. Shostak, V.O. Pakharenko, G.P. Bogotyrova,
N.O. Oliinyk and G.A. Bazalii, Porodorazrushayushchii i metalloobrabatyvayushchii
instrument — tekhnika i technologiya ego izgotovleniya i primeneniya. 14, 394
(2011) [in Ukrainian].
128. M.O. Lisunova, Y.P. Mamunya, N.I. Lebovka and A.V. Melezhyk, European Polymer J. 43, 949 (2007). https://doi.org/10.1016/j.eurpolymj.2006.12.015.
RevModPhys.45.574.
130. Y.P. Mamunya, Ukrainian Chemistry Journal. 66 (3), 55 (2000) [in Ukrainian].
131. A. Quivy, R. Deltour, A. G. M. Jansen and P. Wyder, Phys. Rev. B 39 (2), 1026 (1989).
https://doi.org/10.1103/PhysRevB.39.1026.
132. I. Balberg, N. Binenbaum and S. Bozovsky, Sol St Comm. 47 (12), 989 (1983). https://
doi.org/10.1016/0038-1098(83)90984-5.
133. Yu.I. Sementsov, S.L. Revo, K.O. Ivanenko and S. Hamamda, Expanded graphite and
its composites, edited by M.T. Kartel (Akademperiodika, Kyiv, 2019), pp. 74—87.
134. V.A. Kabanova, editor, Encyclopedia of Polymers (Soviet Encyclopedia, Moscow,
1977), vol.3. [in Russian].
135. J.C. Halpin and J.L. Kardos, Polym. Eng. Sci. 16 (5), 344 (1976). https://onlinelibrary.
wiley.com/doi/pdf/10.1002/pen.760160512
136. A. Haque and A. Ramasetty, Composite Structures 71 (1), 68 (2005). https://doi.
org/10.1016/j.compstruct.2004.09.029.
137. A. Patterson, Phys. Rev. 56 (10), 978 (1939). https://doi.org/10.1103/
PhysRev.56.978
138. M. I. Terets, E. M. Demianenko, S. V. Zhuravsky, O. A. Chernyuk, V. S. Kuts,
A.G. Grebenyuk, Yu. I. Sementsov, L. M. Kokhtych and M. T. Kartel, Him. Fiz. Tehnol.
Poverhni. 10 (1), 75 (2019).
139. L.M. Ganuk, V.D. Ignatkov, S. M. Mahno and P.M. Soroka, Ukrainian Journal of
Physics. 4 (6), 627 (1995) [in Russian].
140. V.G. Shevchenko and A.T. Ponomarenko, Russian Chemical Reviews. 52 (8), 757 (1983).
141. S.M. Makhno, O.M. Lisova, G.M. Gunya, Yu.I. Sementsov, Yu.V. Grebelna and
M.T. Kartel, Physics and chemistry of solid state. 17 (3), 421 (2016).
142. R.O. Medupin, O.K. Abubakre, A.S. Abdulkareem, R.A. Muriana and A.S. Abdulrahman,
Sci Rep. 9, 20146 (2019). https://doi.org/10.1038/s41598-019-56778-0
143. F. Danafar and M. Kalantari, J Rubber Res. 21, 293 (2018). https://doi.org/10.1007/BF03449176
144. T. Jose, G. Moni, S. Salini, A.J. Raju, J.J. George and S.C. George, Industrial Crops & Products. 105, 63 (2017). https://doi.org/10.1016/j.indcrop.2017.04.047
145. P. Kueseng, P. Sae-Oui, C. Sirisinha, K.I. Jacob and N. Rattanasom, Polymer Testing. 32, 1229 (2013). https://doi.org/10.1016/j.polymertesting.2013.07.005
146. B. Szadkowski, A. Marzec and M. Zaborski, Composite interfaces. 26, 729 (2019). https://doi.org/10.1080/09276440.2018.1534474
147. S.K. Srivastava and Y.K. Mishra, Nanomaterials. 8 (11), 945 (2018). https://doi.org/10.3390/nano8110945
148. Y.H. Zhan, G.Q. Liu, H.S. Xia and N. Yan, Plastics, Rubber and Composites. 40, 32 (2011). https://doi.org/10.1179/174328911X12940139029284
149. S. Th omas, J. Abraham, S.C. George and S. Th omas, Polym Bull. 77, 1 (2020). https://doi.org/10.1007/s00289-019-02693-3
150. M.M. Salehi, T. Khalkhali and A.A. Davoodi, Polym. Sci. Ser. A. 58, 567 (2016). https://doi.org/10.1134/S0965545X16040131
151. S. Chuayjuljit, A. Imvittaya, N. Na-Ranong and P. Potiyaraj, J Met Mater Miner. 12, 51 (2002).
152. L. Wei, X. Fu, M. Luo, Z. Xie, C. Huang, J. Zhou, Y. Zhu, G. Huang and J. Wu, RSC Adv. 8, 10573 (2018). https://doi.org/10.1039/C7RA12830D
154. P. Th aptong, C. Sirisinha, U. Th epsuwan and P. Sae-Oui, Polym Plast Technol Eng. 53, 818 (2014), https://doi.org/10.1080/03602559.2014.886047
155. E. Harea, R. Stoček, L. Storozhuk, Y. Sementsov and N. Kartel, Appl Nanosci. 9, 899 (2019). https://doi.org/10.1007/s13204-018-0797-6
156. H. Ismail, A.F. Ramlya and N. Othmana, Polym Plast Technol Eng. 50, 660 (2011). https://doi.org/10.1080/03602559.2010.551380
157. M. Khalid, C.T. Ratnam, R. Walvekar, M.R. Ketabchi and M.E. Hoque, in: Green Biocomposites. Green Energy and Technology, edited by M. Jawaid, M.S. Salit and O.Y. Alothman (Springer, Cham, 2017), pp. 309—345. https://doi.org/10.1007/978-3-319-49382-4_14
158. I. Garkina and A. Danilov, IOP Conf. Ser.: Mater. Sci. Eng. 471 (3), 032005 (2019). doi:10.1088/1757-899X/471/3/032005
159. S.F. Korenkova and Y.V. Sidorenkova, Procedia Engineering. 111, 420 (2015). https://doi.org/10.1016/j.proeng.2015.07.110
160. S.V. Reznichenko and Y.L. Morozova, editors, Great reference book of the rubbermaker. Part 1 Rubbers and ingredients (Ltd “Publishing Center” Techinform “of the International Academy of Informatization”, Moscow, 2012), pp. 533—536.
161. Ningbo Taishun Sealing Technology Co., Ltd (2020) http://www.taisun-sealing.com
162. Y.I. Sementsov, M.T. Kartel, K.O. Ivanenko, S.M. Makhno, S.V. Zhuravsky, S.M. Gozhdzinskii, A.D. Terets, V.V. Trachevskii, Din Ang and W. Yang, UA Patent application No. a202005083 (05 August, 2020)
163. Y. Sementsov, W. Yang, K. Ivanenko, S. Makhno and M. Kartel, Appl Nanosci. 12 (3), 621 (2022). https://doi.org/10.1007/s13204-021-01730-w
164. D.J. Burlett, H. Richter, R. Sivarajan and V. Vejins, US Patent No. 20190322818 A1 (24 October, 2019).
165. O.A. Cherniuk, E.M. Demianenko, M.I. Terets, S.V. Zhuravskyi, S.M. Makhno, V.V. Lobanov, M.T. Kartel and Yu.I. Sementsov, Appl Nanosci. 10 (12), 4797 (2020). https://doi.org/10.1007/s13204-020-01448-1
СHAPTER 6
the Interior, Bureau of mines, 1967), Bulletin 64.
2. P.E. Trevisanutto, M. Holzmann, M. Côté and V. Olevano. Phys. Rev. B. 81 (12),
121405(R) (2010).
3. R.J. Papoular and R. Papoular, Mon. Not. R. Astron. Soc. 394, 2175, (2014).
4. M S. Dresselhaus & G. Dresselhaus, Advances in Physics, 51 (1), 1 (2002).
5. Hanlon, L.R., Falardeau, E.R., and Fischer, J.E., Solid St. Commun., 24, 377 (1977).
6. Hanlon, L.R., Falardeau, E.R., and Fischer, J.E., Mater. Sci. Engng, 31, 161 (1977).
7. A.B. Djurisic, and E.H. Li.J. Applied Physics. 85 (10), 7404 (1999).
8. E. Taft and H. R. Philipp, Phys. Rev. A. 138, 197 (1965).
9. H. Venghaus, Phys. Status Solidi B. 71, 615 (1975).
10. D.L. Greenaway, G. Harbeke, F. Bassani and E. Tossati, Phys. Rev. 178, 1340 (1969).
11. G. Guizzetti, L. Nosnezo, E. Reguzzoni, and G. Samoggia, Phys. Rev. Lett. 31, 154
(1973).
12. E. Tossati and F. Bassani, Nuovo Cimento B 65, 161 (1970).
13. Borghesi and G. Guizzetti, in: Handbook of Optical Constants of Solids II, edited by
E.D. Palik (Academic, Boston, 1991), pp. 449—460.
14. R. Klucker, M. Skibowski and W. Steinmann, Phys. Status Solidi B 65, 703 (1974).
15. L.G. Johnson and G. Dresselhaus, Phys. Rev. B 7, 2275 (1973).
16. R.F. Willis, B. Fitton and G.S. Painter, Phys. Rev. B 9, 1926 (1973).
17. R. Ahuja, S. Auluck, J. M. Wills, M. Alouani, R. Johansen and O. Erikson, Phys. Rev.
B 55, 4999 (1997).
18. G.S. Painter and D.E. Ellis, Phys. Rev. B 1, 4747 (1970).
19. W.B. Boyle and P. Nozieres, Phys. Rev. 111, 782, (1958).
20. S. Ergun, Nature. 213, 135 (1967).
21. P.L. Walker, Jr. and P.A. Th rower, editors, Chemistry and Physics of Carbon (Marcel
DeKramers-Kroniger Inc., New York, 1965), vol. 16, pp. 138—161.
Press, New York, 1962), vol. 1, p. 22.
23. G. Dresselhaus, M.S. Dresselhaus and J.G. Mavroides, Carbon. 4, 433 (1966).
24. G. Dresselhaus and M.S. Dresselhaus, Rev. Rev. A. 140, 401 (1965).
25. G. Dresselhaus and M.S. Dresselhaus, Mater. Sci. Engng, 31, 235 (1977).
26. J.W. McClure, IBM Jl Res. Dev. 8, 225 (1964).
27. I.L. Spain, in: Chemistry and Physics of Carbon, edited by P. L. Walker (Marcel Dekker,
New York, 1973), vol. 8, pp. 105, 110.
28. S. Ergun, in: Chemistry and Physics of Carbon, edited by P.L. Walker (Marcel Dekker,
L.J. Brillson, E. Burstein, A. A. Maradudin and T. Stark, in: Proceedings of the International
Conference on Semimetals and Narrow Gap Semiconductors, edited by
D.L. Carter and R. T. Bate (Pergamon Press, New York, 1971), p. 187.
29. R.J. Nemanich, G. Lucovsky, and S. A. Solin, Solid St. Commun. 23, 117 (1977).
30. M.S. Dresselhaus and J.G. Mavroides, IBM Jl Res. Dev., 8, 262 (1964).
31. H.R. Philipp, Phys. Rev. B. 16, 2896 (1977).
32. G. Bellodi, A. Borghesi, G. Guizzetti, L. Nosenzo, E. Reguzzoni and G. Samoggia,
Phys. Rev. B. 12, 5951 (1975).
33. K. Nakao, J. Phys. Soc. Japan, 47, 208 (1979).
34. A. Misu, E. Mendez, and M. S. Dresselhaus, J. Phys. Soc. Japan, 47, 199 (1979).
35. G. Dresselhaus, Phys. Rev. B. 10, 3602 (1974).
36. A. Balzarotti and M. Grandolfo, Phys. Rev. Lett., 20, 9 (1968).
37. S. Ergun, J. B. Yashinsky and J. R. Townsend, Carbon, 5, 403 (1967).
38. H. Anderegg, B. Feuerbacher and B. Fitton, Phys. Rev. Lett., 26, 760 (1971).
39. T. Uda, J. Phys. Soc. Japan. 28 (4), 946 (1970).
40. A.B. Kuzmenko, E. van Heumen, F. Carbone and D. van der Marel, Phys. Rev. Lett. 100, 117401 (2008).
41. B. Draine and H. Lee, Ap. J. 285, 89 (1984).
42. C. Bohren and D. Huff man, Absorption and scattering of light by small particles (John
Wiley and Sons, New York, 1983).
43. N.B. Brandt, S.M. Chudinov, and Ya.G. Ponomarev, Semimetals I: Graphite and its
Compounds, edited by V.M. Agranovich and A.A. Maradudin (North-Holland, Amsterdam,
1988), Modern Problems in Condensed Matter Sciences. vol. 20 (1).
44. F. Bassani, G.P. Parravicini, Nuovo Cimento B. 50 (1), 85 (1967).
45. E. Doni and G.P. Parravicini, Nuovo Cimento B. 64, 117 (1969).
46. J.G. Carter, R. H. Huebner, R. W. Hamm and R. D. Birkhoff , Phys. Rev. A. 137, A635 (1965).
47. B. Djurisic, A.B. Rakic and J.M. Elazar, Phys. Rev. E. 55, 4797 (1997).
48. M. Zanini, L.-Y. Ching and J.E. Fischer, Phys. Rev. B. 18, 2020 (1978).
49. H. Venghaus, Phys. Stat. Sol. (b). 81, 221 (1977).
50. U. Buchner, Phys. Stat. Sol. (b). 81, 227 (1977).
51. A.K. Solanki, A. Kashyap, T. Nautiyal, S. Auluck and M.A. Khan. Sol. St. Commun. 100, 645 (1996).
52. K. Zeppenfeld, Z. Phys. 211, 391 (1968).
53. J.B. Yasinsky and S. Ergun, Carbon. 2 (4), 355 (1965).
54. Y. Sato, J. Phys. Soc. Japan 24, 489 (1968).
55. C. Koike, H. Hasegawa and A. Manabe, Astrophys. Sp. Sc. 67, 495 (1980).
56. F. Rouleau and P. Martin, ApJ 377, 526 (1991).
58. V. Mennella, L. Colangeli, A Blanco, E. Bussoletti, S. Fonti, P. Palumbo and H. Mertins,
A&A 295, 165 (1995).
59. A. Jones, L. Fanciullo, M. Kohler, L. Verstraete, V. Guillet, M. Bocchio and N. Ysard,
A&A 558, A62 (2013).
60. B. Kwiecinska, D.G. Murchison and E. Scott, J. of Microscopy. 109 (3), 289 (1977).
61. M. Zanini and J.E. Fischer, Mater. Sci. Engng, 31, 169 (1977).
62. M. Zanini, D. Grubisic and J.E. Fischer, Phys. Stat. Sol., 90, 151 (1978).
63. M.S. Dresselhaus, G. Dresselhaus, P.C. Eklund and D.D.L. Chung, Mater. Sci. Engng.
31, 141 (1977).
64. M. Maeda, Y. Kuramoto and C. Horie, J. Phys. Soc. Japan. 47, 337 (1979).
65. S. Reich and Ch. Th omsen, Phil. Trans. R. Soc. Lond. A. 362, 2271—2288 (2004).
66. F. Tuinstra and J.F. Koenig, J. Chem. Phys. 53, 1126 (1970).
67. R.J. Nemanich, G. Lucovsky and S.A. Solin, in: Proceedings of the International Conference
on Lattice Dynamics, edited by M. Balkanski (Flammarion Press, Paris, 1975), p. 619.
68. R. Nicklow, N. Wakabayashi and H.G. Smith, Phys. Rev. B. 5, 4951 (1972).
69. J.A. Young and N.U. Koppel, J. Chem. Phys. 42, 357 (1965).
70. A.P.P. Nicolson, and D.J. Bacon, J. Phys. C. 10, 2295 (1977).
71. R. Nemanich and S. Solin, Phys. Rev. B. 20 (12), 392 (1979).
72. R.J. Nemanich, and S.A. Solin, Solid St. Commun. 23, 417 (1977).
73. J. Robertson, Mat. Science and Engineering. R 37, 129 (2002).
74. D. Guérard, G.M.T. Foley, M. Zanini and J.E. Fischer, Nuovo Cim. B, 38, 410
(1977).
75. G.R. Hennig, J. Chem. Phys., 43, 1201 (1965).
76. P. Pfl uger, P. Oelhafen, H.U. Künzi, R. Jeker, E. Hauser, K.P. Ackermann, M. Müller
and H.-J. Güntherodt, Physica B, 99 (1-4), 395 (1980).
77. S. Basu, C. Zeller, P. Flanders, C. D. Fuerst, W. D. Johnson and J. E. Fischer, Mater.
Sci. Engng, 38, 275 (1979).
78. J.E. Fischer, Mater. Sci. Engng, 31, 211 (1977); Physics and Chemistry of Materials
with Layered Structures, edited by F. Lévy (Dordrecht: Reidel, 1979), vol. 6, p. 481.
79. J. Blinowski, H.H. Nguyen, C. Rigaux, J.P. Vieren, R. Le Toullec, G. Furdin, A. Hérold
and, J. Melin, J. Phys. France. 41 (1), 47 (1980).
80. T.E. Th ompson, E.R. Falardeau and L.R. Hanlon, Carbon. 15, 39 (1977).
81. P.C. Eklund, D.S. Smith and V.R.K. Murthy, Synth. Metals. 3, 111 (1981).
82. J.E. Fischer, T.E. Th ompson, G.M.T. Foley, D. Guérard, M. Hoke and F.L. Lederman,
Phys. Rev. Lett. 37, 769 (1976).
83. J. Perrachon, Ph.D. Th esis, University of Pennsylvania, 1978.
84. R.M. Fischer, D.J. Smith, L. A. Freeman, S. J. Pennycook and A. Howie, in: Extended Abstracts
of the 14th Biennial Conference on Carbon (Pennsylvania State University, 1979,),
p. 318.
85. C.C. Shieh, R.L. Schmidt, and J.E. Fischer, Phys. Rev. B. 20, 3351 (1979).
86. K. Nakao, J. Phys. Soc. Japan. 40, 761 (1976).
87. A. Avogadro and M. Villa, J. Chem. Phys., 66, 2359 (1977).
88. D.M. Hwang, M. Utlaut, M.S. Isaacson and S.A. Solin, Physica B. 99, 435 (1980).
89. G. Ruprecht, D.M. Ginsberg and J.D. Leslie, J. Opt. Soc. Am. 52, 665 (1962).
90. J.J. Song, D.D.L. Chung, P.C. Eklund and M.S. Dresselhaus, Solid St. Commun. 20, 1111 (1976).
92. S.A. Solin, Mater. Sci. Engng. 31, 153 (1977).
93. C. Underhill, S.Y. Leung, G. Dresselhaus and M. S. Dresselhaus, Solid St. Commun. 29, 769 (1979).
94. G.M. Gualberto, C. Underhill, S.Y. Leung and G. Dresselhaus, Phys. Rev. B, 21, 862 (1980).
95. P.C. Eklund, D.S. Smith, V.R.K. Murthy, and S.Y. Leung, Synth. Metals. 2, 99 (1980).
96. P.C. Eklund, G. Dresselhaus, M.S. Dresselhaus and J.E. Fischer, Phys. Rev. B. 16, 3330 (1977).
97. S.A. Solin, Physica B. 99, 443 (1980).
98. L.Pietronero, S. Strässler, H.R. Zeller and M.J. Rice, Phys. Rev. Lett. 41, 763 (1978).
99. C.P Eklund, G. Dresselhaus, M.S. Dresselhaus and J.E. Fischer, Phys. Rev. B. 21, 4705 (1980).
100. D.E. Nixon and G.S. Parry, J. Phys. D. 1, 291 (1968); J. Phys. C. 2, 1732 (1969).
101. P. C. Eklund, R. Falardeau and J.E. Fischer, Solid St. Commun. 32, 631 (1979).
102. M.S. Dresselhaus and G. Dresselhaus, in: Physics and Chemistry of Materials with Layered Structures, edited by F. Lévy (Dordrecht: Reidel, 1979), Vol. 6, p. 497.
103. P.C. Eklund, N. Kambe, G. Dresselhaus and M.S. Dresselhaus, Phys. Rev. B. 18, 7069 (1978).
104. N. Caswell and S.A. Solin, Solid St. Commun. 27, 961 (1978).
105. B.L. Hefl inger, Ph.D. Th esis, MIT, Cambridge, Massachusetts, 1979.
106. L. Pietronero, S. Strässler and H. R. Zeller, Solid St. Commun. 30, 399 (1979).
107. S.Y. Leung, C. Underhil, G. Dresselhaus and M. S. Dresselhaus, Solid St. Commun. 33, 285 (1980).
108. E. Mendez, T.C. Chieu, N. Kambe and M.S. Dresselhaus, Solid St. Commun. 33, 837 (1980).
109. G. Dresselhaus and S.Y. Leung, Solid St. Commun. 35, 819 (1980).
110. C. Jager, H. Mutschke and T. Henning, Astron Astrophys. 332 (1), 291 (1998).
111. E.T. Arakawa, M.W. Williams and T. Inagaki, J. Appl Phys. 48(7), 3176 (1977).
112. B.J. Stagg, T.T. Charalampopoulos, Combust. Flame. 94 (4), 381 (1993).
113. A. Grill. Th in Solid Films. 355–356, 189 (1999).
114. N.D. Baydogan, Materials Science and Engineering B. 107, 70 (2004).
115. R.C. Barklie, Diamond Relat. Mater. 10, 174 (2001).
116. N. Laidani, R Bartali, G Gottardi, M Anderle and P Cheyssac, J. Phys. Condens. Matter. 20, 015216 (2008).
117. J. Tauc, R. Grigorovici and A. Vancu, Phys. Status Solidi. 15, 627 (1966).
118. G.E. Jellison Jr. and F.A. Modine, Appl. Phys. Lett. 69, 371 (1996).
119. A.R. Forouhi and I. Bloomer Phys. Rev. B. 34, 7018 (1986).
120. W.A. Mc Gahan, T. Makovicka, J. Hale and J.A. Woollam, Th in Solid Films, 253, 57 (1994).
121. T. Yamaguchi, Y. Kaneko, A.H. Jayatissa and M. Aoyama, Th in Solid Films. 279, 174 (1996).
122. S. Waidmann, M. Knupfer, J. Fink, B. Kleinsorge and J. Robertson, J. Appl. Phys. 89, 3783 (2001).
123. F. Xiong, Y.Y. Chang, R.P.H. Chang, Phys. Rev. B. 48, 8016 (1993).
124. J. Fink, T. Muller-Heinzerling, J. Pfl uger, B. Scheere, B. Dischler, P. Koidl, A. Bubenzer
and R.E. Sah, Phys. Rev. B. 30, 4713 (1984).
125. M.L. Th eye, V. Paret and A. Sadki, Diamond Rel. Mater. 10, 182 (2001).
126. J. Robertson and E.P. O’Reilly, Phys.Rev. B. 35, 2946 (1987).
128. C.W. Chen and J. Robertson, J. Non Cryst. Solids. 227/228, 602 (1998).
129. N.M.J. Conway, A.C. Ferrari, A.J. Flewitt, J. Robertson, W.I. Milne, A. Tagliaferro
and W. Beyer, Diamond Rel. Mater. 9, 765 (2000).
130. R.H. Jarman, G.J. Ray and R.W. Stadley, Appl. Phys. Lett. 58, 1065 (1986).
131. M.A. Tamor, W.C. Vassel and K.R. Carduner, Appl. Phys. Lett. 58, 592 (1991).
132. M.A. Tamor and W.C. Vassel, J. Appl. Phys. 76, 3823 (1994).
133. M. Weiler, S. Sattel, T. Giessen, K. Jung, H. Ehrhardt, V.S. Veerasamy and J. Robertson,
Phys. Rev. B. 53, 1594 (1996).
134. M. Chhowalla, J. Robertson, C.W. Chen, S.R.P. Silva, Y. Lifshitz and W.I. Milne, Philos.
Mag. B. 76, 351 (1997).
135. C. Oppedisano and A. Tagliaferro, Appl. Phys.Lett. 75, 3650 (1999).
136. D. Dasgupta, F. Demichelis, C.F. Pirri and A. Tagliaferro, Phys. Rev. B. 43, 2131
(1991).
137. G. Fanchini, A. Tagliaferro, D.P. Dowling, K. Donnelly, M.L. McConnell, R. Flood,
and G. Lang, Phys. Rev. B. 61, 5002 (2000).
138. R. Bouzerer, C. Amory, B. Racine and A. Zeinery, J. Non Cryst. Solids. 281, 171 (2001).
139. V. Paret, A. Sadki, Y. Bounouh, R. Alameh, C. Naud, M. Zarrabian, A. Seignac,
G. Turban and M.L. Th eye, J. Non Cryst. Solids. 227, 583 (1998).
140. S.L. Maeng, S. Uchikoga, F.J. Clough, A. Tagliaferro, A.J. Flewitt, J. Robertson and
W.I. Milne. Diamond Rel. Mater. 9, 805 (2000).
141. S. Arena, B. Kleinsorge, J. Robertson, W.I. Milne and M.E. Welland. J. Appl. Phys.
85, 1609 (1999).
142. J. Robertson, Phys. State Solid B. 186, 177 (2001).
143. J.S. Lannin. J. Non Cryst. Solids. 97, 39 (1987).
144. A.C. Ferrari and J. Robertson, Phys. Rev. B. 61, 14095 (2000).
145. A.C. Ferrari, Solid State Commun. 143(1‐2), 47 (2007).
146. A.C. Ferrari and J. Robertson, Phys Rev B. 64(7), 075414 (2001).
147. P.Y. Yu and M. Cardona, Fundamentals of Semiconductors. Physics and Materials
Properties, 3rd ed. (Springer, Berlin, 1996).
148. R. Alben, D. Weaire, J.E. Smith and M.H. Brodsky, Phys. Rev. B. 11, 2271 (1975).
149. N. Wada, P.J. Gaczi and A. Solin. J. Non Cryst. Solids. 35/36, 543 (1980).
150. R.E. Scroder, R.J. Nemanich and J.T. Glass. Phys. Rev. B. 41, 3738 (1990).
151. S.R. Salis, D.J. Gardiner, M. Bowden, J. Savage and D. Rodway. Diamond Rel. Mater.
5, 589 (1996).
152. J. Rao J., K.J. Lawson and J.R. Nicholls, Surface and Coatings Technology. 197 (2—3),
154 (2004).
153. A. Cuesta, P. Dhamelincourt, J. Laureyns, A. Martinezalonso and J.M.D. Tascon,
Carbon. 32(8), 1523 (1994).
154. M. Chhowalla, A.C. Ferrari, J. Robertson and G.A.J Amaratunga. Appl. Phys. Lett.
76, 1419 (2000).
155. A.C. Ferrari, A. Li Bassi, B.K. Tanner, V. Stolojan, J. Yuan, L.M. Brown, S.E. Rodil,
B. Kleinsorge and J. Robertson. Phys. Rev. B. 62, 11089 (2000).
156. R. Al-Jishi and C. Dresselhaus. Phys. Rev. B. 26, 4514 (1982).
157. G. Kresse, J. Furthmuller and J. Hafner, Europhys. Lett. 32, 729 (1995).
158. T. Kohler, T. Frauenheim and G. Jungnickel. Phys. Rev. B. 52, 11837 (1995).
159. F. Li and J.S. Lanmin. Appl. Phys. Lett. 69, 3348 (1996).
and R. Kalish. Diamond Rev. Mater. 5, 433 (1996).
161. K.W.R. Gilkes, H.S. Sands, D.N. Bachelder, J. Robertson and W.I. Milne, Appl. Phys.
Lett. 70, 1980 (1997).
162. V.I. Merkulov, J.S. Lannin, C.H. Munro, S.A. Asher, V.S. Veerasamy and W.I. Milne.
Phys. Rev. Lett. 78, 4869 (1997).
163. K.W.R. Gilkes, S. Prawer, K.W. Nugent, I. Robertson, H.S. Sands, Y. Lifshitz and
Z. Shi. J. Appl. Phys. 87, 7283 (2000).
164. G. Adamopoulos, K.W.R. Gilkes, J. Robertson, N.M.J. Conway, B.Y. Kleinsorge,
A. Buckley and D.N. Batchelder, Diamond Rel. Mater. 8, 541 (1999).
165. J.R. Shi, X. Shi, Z. Sun, S.P. Lau, B.K. Tay and H.S. Tan, Diamond Rel. Mater. 10, 76
(2001).
166. M. Profeta and F. Mauri, Phys. Rev. B. 63, 424515 (2001).
167. A.V. Baranov, A.N. Bekhterev, Y.S. Bobocvich and V. I. Petrov. Optical Spectrosc. 62,
612 (1988).
168. Pocsik, M. Hundhausen, M. Koos, L. Ley. J. Non Cryst. Solids. 227-230, 1083
(1998).
169. M.J. Matthews, M.A. Pimenta, G. Dresselhaus, M.S. Dresselhaus and M. Endo. Phys.
Rev. B. 59, 6585 (1999).
170. C. Th omsen and S. Reich. Phys. Rev. Lett. 85, 5214 (2000).
171. M. Ramsteiner and J. Wagner. Appl. Phys. Lett. 51, 1355 (1987).
172. J. Wagner, M. Ramsteiner, C. Wild and P. Koild. Phys. Rev. B. 40, 1817 (1989).
173. M. Yoshikawa, C. Katagiri, H. Ishida, A. Ishitani and T. Akamatsu. Solid State Commun.
66, 1177 (1988).
174. S.V. Chernychov, E.I. Terukov, V.A. Vassilyev and A.S. Volkov. J. Non Cryst. Solids.
134, 218 (1991).
175. S. Schutte, S. Will, H. Mell and W. Fuhs. Diamond Rel. Mater. 2, 1360 (1993).
176. Rusli, J. Robertson and G.A.J. Amaratunga. J. Appl. Phys. 80, 2998 (1996).
177. M. Yoshimi, M. Shimizu, K. Hattori, H. Okamoto and Y. Hamakawa. Optoelectronics.
7, 69 (1992).
178. J. Wagner and P. Lautenschlager, J. Appl. Phys. 59, 2044 (1986).
179. M. Koós, I. Póscik and L. Tóth, J. Non Cryst. Solids. 164, 1151 (1993).
180. Rusli, G.A.J. Amaratunga and J. Robertson. Phys. Rev. B. 53, 16306 (1996).
181. W. Lomes, M. Hundhausen and L. Ley. J. Non Cryst. Solids. 227, 570 (1998).
182. M.N. Berberan-Santos, A. Fedorov, J.P. Conde, C. Godet, T. Heitz and J.E. Bouree,
Chem. Phys. Lett. 319, 113 (2000).
183. J. Robertson. Phys. Rev. B. 53, 16302 (1996).
184. C. Godet and M.N. Berberan-Santos. Diamond Rel. Mater. 10, 168 (2001).
185. T. Heitz, C. Godet, J.E. Bouree, B. Drevillon and J.P. Conde. Phys. Rev. B. 60, 6045
(1999).
186. R.A. Street, Hydrogenated Amorphous Silicon (Cambridge University Press, Cambridge,
1991).
187. R.A. Street, Adv. Phys. 30, 593 (1990).
188. B.I. Shklovskii, H. Fritzsche and S.D. Baranovski. Phys. Rev. Lett. 62, 2989 (1989).
189. B.I. Shklovskii, H. Fritzsche and S.D. Baranovski. J. Non Cryst. Solids. 114, 325
(1989).
190. W. Siebert, R. Carius, W. Fuhs and K. Jahn, Phys. Stat Solidi B. 140, 311 (1987).
192. S. Liedtke, K. Lips, K. Jahn and W. Fuhs. J. Non Cryst. Solids. 114, 522 (1989).
193. R.S. Sussman and R. Ogden, Philos. Mag. B. 44, 137 (1981).
194. S.R.P. Silva, Rusli, G. Amaratunga, J. Robertson and J. Schwan, Philos. Mag. B. 74,
369 (1996).
195. S. Xu, M. Hundhausen, J. Ristein, B. Yan and L. Ley, J. Non Cryst. Solids. 164, 1127
(1993).
196. Ilie, M.N.J. Conway, J. Robertson and W.I. Milne, J. Appl. Phys. 84, 5575 (1998).
197. Ilie, O. Harel, M.N.J. Conway, T. Yagi, J. Robertson and W.I. Milne, J. Appl. Phys. 87,
789 (2000).
198. F. Giorgis, F. Giuliani, C.F. Pirri, A. Tagliaferro and E. Tresso, Appl. Phys. Lett. 72,
2520 (1998).
199. M. Koós, I. Pócsik, J, New York, 1968), vol. 3, p. 45.
200. M. Koós, I. Pócsik, J. Erostyák and A. Buzádi, J. Non Cryst. Solids. 230, 579 (1998).
201. N.F. Mott and E.A. Davis, Electronic Processes in Non-Crystalline Materials (Oxford
University Press, Oxford, 1979).
202. S.R. Elliott, Physics of Amorphous Materials, 2nd ed. (Longman, London, 1990) p. 283.
203. R.R. Nair, P. Blake, A. N. Grigorenko, K.S. Novoselov, T.J. Booth, T. Stauber,
N.M.R. Peres and A.K. Geim, Science. 320 (5881), 1308 (2008).
204. C.F. Chen, C.H. Park, B.W. Boudouris, J. Horng, B.S. Geng, C. Girit, A. Zettl,
M.F. Crommie, R.A. Segalman, S.G. Louie and F. Wang, Nature. 471, 617 (2011).
205. A.C. Ferrari, J.C. Meyer, V. Scardaci, C. Casiraghi, M. Lazzeri, F. Mauri, S. Piscanec,
D. Jiang, K.S. Novoselov, S. Roth and A.K. Geim, Phys. Rev. Lett. 97, 187401
(2006).
206. M.A. Pimenta, G. Dresselhaus, M.S. Dresselhaus, L.G. Cançado, A. Jorio and R. Saito,
Phys. Chem. Chem. Phys. 9, 1276 (2007).
207. A. Das, S. Pisana, B. Chakraborty, S. Piscanec, S.K. Saha, U.V. Waghmare, K.S. Novoselov,
H.R. Krishnamurthy, A.K. Geim, A.C. Ferrari and A.K. Sood, Nature Nanotechnol.
3, 210 (2008).
208. M.S. Dresselhaus, A. Jorio, M. Hofmann, G. Dresselhaus and R. Saito, Nano Lett. 10,
751 (2010).
209. S. Pisana, M. Lazzeri, C. Casiraghi, K.S. Novoselov, A.K. Geim, A.C. Ferrari and
F. Mauri, Nature Mater. 6, 198 (2007).
210. J. Yan, Y.B. Zhang, P. Kim and A. Pinczuk, Phys. Rev. Lett. 98, 166802 (2007).
211. K.F. Mak, L. Ju, F.Wang and T.F. Heinz, Sol. St. Commun. 152, 1341 (2012).
212. L.M. Malard, M.A. Pimenta, G. Dresselhaus and M.S. Dresselhaus, Phys. Rep. Rev.
Sect. Phys. Lett. 473, 51 (2009).
213. W.T. Liu, S.W. Wu, P.J. Schuck, M. Salmeron, Y.R. Shen and F. Wang, Phys. Rev. B.
82, 081408 (2010).
214. M. Xie, Y. Su, X. Lu, Y. Zhang, Z. Yang and Y. Zhang, Materials Letters. 93, 161
(2013).
215. S.J. Zhuo, M.W. Shao and S.T. Lee, ACS Nano. 6, 1059 (2012).
216. S.T. Yang, L. Cao, P.G. Luo, F.S. Lu, X. Wang, H.F. Wang, M.J. Meziani, Y.F. Liu, G. Qi
and Y.-P. Sun, J. Am. Chem. Soc. 131, 11308 (2009).
217. S.N. Baker and G.A. Baker. Angew Chem Int Ed Engl. 49, 6726 (2010).
218. Z. Yang, R.G. Gao, N.T. Hu, J. Chai, Y.W. Cheng, L.Y. Zhang, H. Wei, E.S.-W. Kong and Y. Zhang, Nano-Micro Lett. 4, 1 (2012).
M. Chhowalla, Adv. Mater., 22, 505 (2010).
220. X. Yan, X. Cui and L.S. Li, J. Am. Chem. Soc. 132, 5944 (2010).
221. L.Y. Jiao, X.R. Wang, G. Diankov, H.L. Wang and H.J. Dai, Nat Nanotechnol. 5, 321 (2010).
222. L.Y. Jiao, L. Zhang, X.R. Wang, G. Diankov and H.J. Dai, Nature. 458, 877 (2009).
223. J. Peng, W. Gao, B.K. Gupta, Z. Liu, R. Romero-Aburto, L. Ge, L. Song, L. B. Alemany,
X. Zhan, G. Gao, S.A. Vithayathil, B.A. Kaipparettu, A.A. Marti, T. Hayashi, J.-J. Zhu and
P.M. Ajayan, Nano Lett. 12 (2), 844 (2012).
224. L. Bokobza, J.-L. Bruneel and M. Couzi. C — Journal of Carbon Research. 1, 77
(2015), doi:10.3390/c1010077.
225. C. H. Lui, K.F. Mak, J. Shan and T.F. Heinz. Phys. Rev. Lett. 105, 127404 (2010).
226. S. Berciaud, M.Y. Han, K.F. Mak, L.E. Brus, P. Kim and T.F. Heinz, Phys. Rev. Lett.
104, 227401 (2010).
227. M. Freitag, H.-Y. Chiu, M. Steiner, V. Perebeinos and P. Avouris, Nat. Nano. 5, 497 (2010).
228. T. Gokus, R.R. Nair, A. Bonetti, M. Bohmler, A. Lombardo, K.S. Novoselov,
A.K. Geim, A.C. Ferrari and A. Hartschuh, ACS Nano. 3, 3963 (2009).
229. X.M. Sun, Z. Liu, K. Welsher, J.T. Robinson, A. Goodwin, S. Zaric and H.J. Dai, Nano
Res. 1, 203 (2008).
230. Z.T. Luo, P.M. Vora, E.J. Mele, A.T.C. Johnson and J.M. Kikkawa, Appl. Phys. Lett.
94, 111909 (2009).
231. T.V. Cuong, V.H. Pham, Q.T. Tran, J.S. Chung, E.W. Shin, J.S. Kim and E.J. Kim, Mat.
Lett. 64, 399 (2010).
232. C. Casiraghi, A. Hartschuh, E. Lidorikis, H. Qian, H. Harutyunyan, T. Gokus,
K.S. Novoselov and A. C. Ferrari, Nano Lett. 7 (9), 2711 (2007).
233. Bayer, C. Wiemann, O. Gaier, M. Bauer, and M. Aeschlimann, J. Nanomater., 249514
(2008).
234. F. Rana, Phys. Rev. B. 76, 155431 (2007).
235. W.-K. Tse, E.H. Hwang, and S. Das Sarma, Appl. Phys. Lett. 93, 023128 (2008).
236. H. Miyazaki, S. Odaka, T. Sato, S. Tanaka, H. Goto, A. Kanda, K. Tsukagoshi, Y. Ootuka
and Y. Aoyagi, Appl. Phys. Express. 1, 034007 (2008).
237. O. Kashuba and V.I. Fal’ko, Phys. Rev. B. 80, 241404(R) (2009).
238. S. Park and R.S. Ruoff , Nat. Nanotechnol. 4, 217 (2009).
239. K. Krishnamoorthy, M. Veerapandian, R. Mohan and S.J. Kim, Appl. Phys. A: Mater.
Sci.Process. 106, 501 (2012).
240. L. Cao, M.J. Meziani, S. Sahu and Y.P. Sun, Accounts of Chemical Research. 46 (1), 171
(2013).
241. K. P. Loh, Q. Bao, G. Eda and M. Chhowalla, Nat. Chem. 2, 1015 (2010).
242. Q. Mei, K. Zhang, G. Guan, B. Liu, S. Wang and Z. Zhang, Chem. Commun. 46, 7319
(2010).
243. A. Nourbakhsh, M. Cantoro, T. Vosch, G. Pourtois, F. Clemente, M.H. van der Veen,
J. Hofk ens, M.M. Heyns, S. De Gendt and B.F. Sels, Nanotechnology. 21, 435203 (2010).
244. D. Pan, L. Guo, J. Zhang, C. Xi, Q. Xue, H. Huang, J. Li, Z. Zhang, W. Yu, Z. Chen,
Z. Li and M. Wu, J. Mater. Chem. 22, 3314 (2012).
245. J.-L. Chen, X.-P. Yan, K. Meng and S.-F. Wang, Anal. Chem. 83, 8787 (2011).
246. Y.-P. Sun, B. Zhou, Y. Lin, W. Wang, K.A.S. Fernando, P. Pathak, B.A. Harruff , X. Wang, H. Wang, P. G. Luo, H. Yang, B. Chen, L.M. Veca and S.-Y. Xie, J. Am. Chem. Soc. 128, 7756 (2006).
R.B. Weisman and P.M. Ajayan, Sci. Rep. 1, 85 (2011).
248. V. Gupta, N. Chaudhary, R. Srivastava, G.D. Sharma, R. Bhardwaj and S. Chand,
J. Am. Chem. Soc. 133, 9960 (2011).
249. J.-L. Li, H.-C. Bao, X.-L. Hou, L. Sun, X.-G. Wang and M. Gu, Angew Chem Int. Ed
Engl. 51, 1830 (2012).
250. M.L. Mueller, X. Yan, J.A. McGuire and L.S. Li, Nano Lett. 10, 2679 (2010).
251. S. Zhu, J. Zhang, X. Liu, B. Li, X. Wang, S. Tang, Q. Meng, Y. F. Li, C. Shi, R. Hu and
B. Yang, RSC Adv. 2, 2717 (2012).
252. Y. Liu, C.-Y. Liu and Z.-Y. Zhang, J. Colloid Interface Sci. 356, 416 (2011).
253. J. Shen, Y. Zhu, C. Chen., X. Yang and C. Li, Chem. Commun. 47, 2580 (2011).
254. J. Shen, Y. Zhu, X. Yang, J. Zong, J. Zhang and C. Li, New J. Chem. 36, 97 (2012).
255. L.M. Veca, F. Lu, M.J. Meziani, L. Cao, P. Zhang, G. Qi, L. Qu, M. Shrestha and
Y.-P. Sun, Chem. Commun. (18), 2565 (2009).
256. Y. Lin, B. Zhou, K.A.S. Fernando, P. Liu, L.F. Allard and Y.-P. Sun, Macromolecules.
36, 7199 (2003).
257. Y. Li, Y. Hu, Y. Zhao, G. Shi, L. Deng, Y. Hou and L. Qu, Adv. Mater. 23, 776 (2011).
258. J.E. Riggs, Z. Guo, D.L. Carroll and Y.-P. Sun, J. Am. Chem. Soc. 122, 5879 (2000).
259. L. Cao, X. Wang, M.J. Meziani, F. Lu, H. Wang, P.G. Luo, Y. Lin, B. A. Harruff ,
L.M. Veca, D. Murray, S.-Y. Xie and Y.-P. Sun, J. Am. Chem. Soc. 129, 11318 (2007).
260. X. Wang, L. Cao, S.T. Yang, F.S. Lu, M.J. Meziani, L.L. Tian, K.W. Sun, M.A. Bloodgood
and Y.-P. Sun, Angew Chem Int. Ed Engl. 49, 5310 (2010).
261. P. Anilkumar, X. Wang, L. Cao, S. Sahu, J.H. Liu, P. Wang, K. Korch, K.N. Tackett II,
A. Parenzan and Y.-P. Sun, Nanoscale. 3, 2023 (2011).
262. X. Wang, L. Cao, C.E. Bunker, M.J. Meziani, F.S. Lu, E.A. Guliants and Y.-P. Sun,
J. Phys. Chem. C. 114, 20941 (2010).
263. D.Y. Pan, J.C. Zhang, Z. Li and M.H. Wu, Adv. Mater. 22, 734 (2010).
264. J. Lu, P.S.E. Yeo, C.K. Gan, P. Wu and K.P. Loh, Nat. Nanotechnol. 6, 247 (2011).
265. H. Liu, T.Ye and C. Mao, Angew Chem Int. Ed Engl. 46, 6473 (2007).
266. Y. Dong, N. Zhou, X. Lin, J. Lin, Y. Chi and G. Chen, Chem. Mater. 22, 5895
(2010).
267. K.S. Novoselov, A.K. Geim, S.V. Morozov, D. Jiang, Y. Zhang, S.V Dubonos, I.V. Grigorieva,
A. A. Firsov, Science. 306, 666 (2004).
268. V.M. Pereira, J.M.B.L. dos Santos and A.H.C. Neto, Phys. Rev. B. 77, 115109 (2008).
269. B. O. Dabbousi, J. Rodriguez-Viejo, F.V. Mikulec, J. R. Heine, H. Mattoussi, R. Ober,
K.F. Jensen and M. G. Bawendi, J. Phys. Chem. B. 101, 9463 (1997).
270. Y. Lin, B. Zhou, R.B. Martin, K.B. Henbest, B.A. Harruff , J.E. Riggs, Z. X. Guo, L.F.
Allard and Y.-P. Sun, J. Phys. Chem. B. 109, 14779 (2005).
271. A. B. Bourlinos, A. Stassinopoulos, D. Anglos, R. Zboril, M. Karakassides and
E.P. Giannelis, Small. 4, 455 (2008).
272. H. Peng and J. Travas-Sejdic, Chem. Mater. 21, 5563 (2009).
273. J. Xu, S. Sahu, L. Cao, P. Anilkumar, K. N. Tackett II, H. J. Qian, C. E. Bunker,
E.A. Guliants, A. Parenzan and Y.-P. Sun, Chem Phys Chem. 12, 3604 (2011).
274. X. Y. Li, H. Q. Wang, Y. Shimizu, A. Pyatenko, K. Kawaguchi and N. Koshizaki,
Chem. Commun. 47, 932 (2011).
275. L. Cao, P. Anilkumar, X. Wang, J.H. Liu, S. Sahu, M.J. Meziani, E. Myers and Y.-P. Sun,
Can. J. Chem. 89, 104 (2011).
and Y.-P. Sun, Chem. Commun. 25, 3774 (2009).
277. L. Cao, S. Sahu, P. Anilkumar, C.E. Bunker, J. A. Xu, K.A.S. Fernando, P. Wang,
E.A. Guliants, K. N. Tackett II, and Y.-P. Sun, J. Am. Chem. Soc. 133, 4754 (2011).
278. L. Lacerda, G. Pastorin, W. Wu, M. Prato, A. Bianco and K. Kostarelos, Adv. Funct.
Mater. 16, 1839 (2006).
279. B. Zhou, Y. Lin, D.E. Hill, W. Wang, L.M. Veca, L. Qu, P. Pathak, M.J. Meziani, J. Diaz,
J.W. Connell, K.A. Watson, L.F. Allard and Y.-P. Sun, Polymer. 47, 5323 (2006).
280. S.G. Nedilko, S. Revo, V. Chornii, V. Scherbatskyi, K. Ivanenko, M. Nedielko, Y. Sementsov,
M. Skoryk, A. Nikolenko and V. Strelchuk, Nanoscale Res Lett. 12, 28
(2017). doi: 10.1186/s11671-016–1770-5.
281. M. Kartel, Y. Sementsov, S. Makhno, Z. Weijun, Z. Xiaochen, V.G. Li and B. Wang, International
Journal of Science, Engineering & Technology. 4 (7), 203 (2017).
282. G.I. Dovbeshko, O.P. Repnystka and Y.V. Shtogun, Chem. Phys. Lett. 372, 432 (2003).
283. S.Ya. Brichka, H.P. Pryhodko, A.V. Brichka, M.I. Terets, V.A. Pokrovski, G.I. Dovbeshenko
and E.P. Repnitskaya, Russian Journal of Physical Chemistry. 78 (1), 121 (2004).
284. Yu.I. Sementsov, G.I. Dovbeshko, S.Ya. Brychka, A.V. Brychka, G.P. Prikhod’ko, in:
Surface Enhanced Infrared Absorption of Graphite-Like Materials: Proc. 12th Intern.
Symp. on Intercalation Compounds (Poznan, Poland, 2003), p. 107.
285. T. Chen, B. Zeng, J.L. Liu, J.H. Dong, X.Q. Liu, Z. Wu, X.Z. Yang and Z.M. Li, J. Phys.:
Conf. Ser. 188, 012051 (2009).
286. I.M. Afanasov, I.V. Makarenko, I.I. Vlasov and G. van Tendeloo, in: Annual World
Conference Proceedings (American Carbon Society, Clemson, SC, 2010). H.O. Pierson,
editor, Handbook of carbon, graphite, diamond and fullerenes. Properties, Processing
and Applications (Materials Science and Process Technology), 1st Edition, (Noyes
Publications, Park Ridge, 1993).
287. R.W. Newson, J. Dean, B. Schmidt and H.M. van Driel, Optics Express. 17 (4), 2326
(2009).
288. A.J. Sabbah and D.M. Riff e, Phys. Rev. B. 66, 165217 (2002).
289. J.M. Dawlaty, S. Shivaraman, M. Chandrasekhar, F. Rana and M.G. Spencer, Appl.
Phys. Lett. 92, 042116 (2008).
290. F. Rana, IEEE Trans. Nanotechnol. 7, 91 (2008).
291. K. Seibert, G.C. Cho, W. Kütt, H. Kurz, D.H. Reitze, J.I. Dadap, H. Ahn and
M.C. Downer, Phys. Rev. B. 42, 2842 (1990).
292. Y. Xu, H. Bai, G. Lu, C. Li and G. Shi, J. Am. Chem. Soc. 130, 5856 (2008).
293. S. Stankovich, D.A. Dikin, R.D. Piner, K.A. Kohlhaas, A. Kleinhammes A, Y.Y. Jia,
Y. Wu, S.T. Nguyen and R.S. Ruoff , Carbon, 45, 1558 (2007).
294. M. Zhou, Tian Tian, X. Li, X. Sun, J. Zhang, P. Cui, J. Tang and L.-C. Qin. Int. J. Electrochem.
Sci. 9, 810 (2014).
295. W. Qian, R. Hao, Y.L. Hou, Y. Tian, C.M. Shen, H.J. Gao and X.L. Liang, Nano Res.
2, 706 (2009).
296. J.H. Lee, D.W. Shin, V.G. Makotchenko, A.S. Nazarov, V.E. Fedorov, Y.H. Kim,
J.Y. Choi, J.M. Kim and J.B. Yoo, Adv. Chem. 21, 4383 (2009).
298. P.K. Ang, S. Wang, Q.L. Bao, J.T. L. Th ong and K.P. Loh, ACS Nano. 3, 3587 (2009).
299. C.Chen, W.T. Zhai, D.D. Lu, H.B. Zhang and W.G. Zheng, Mater. Res. Bull. 46, 583
(2011).
Yu. Grebel’na, V. Styopkin, Bo Wang and Yu. Stubrov. Adv. Mat. Let. 8 (3), 212
(2017). DOI: 10.5185/amlett.2017.1428.
301. Yu. Sementsov, S. Mahno, M. Kartel’, Bo Wang, G. Dovbeshko, V. Styopkin and
S. Nedilko, J. of Innovative Sc., Engin. & Techn. 4 (8), 71 (2017).
302. G.I. Dovbeshko, O.P. Gnatyuk, A.A. Nazarova, Yu.I. Sementsov and E.D. Obraztsova,
Fullerenes, nanotubes and carbon nanostructures. 13 (1), 393 (2005).
303. A.C. Ferrari, F. Bonaccorso, V. Fal’ko, K.S. Novoselov, S. Roche, P. Bøggild, S. Borini,
F.H.L. Koppens, V. Palermo, N. Pugno, J.A. Garrido, R. Sordan, A. Bianco, L. Ballerini,
M. Prato, E. Lidorikis, J. Kivioja, C. Marinelli, T. Ryhänen, A. Morpurgo,
J.N. Coleman, V. Nicolosi, L. Colombo, A. Fert, M. Garcia-Hernandez, A. Bachtold,
G.F. Schneider, F. Guinea, C. Dekker, M. Barbone, Z. Sun, C. Galiotis, A.N. Grigorenko,
G. Konstantatos, A. Kis, M. Katsnelson, L. Vandersypen, A. Loiseau, V. Morandi,
D. Neumaier, E. Treossi, V. Pellegrini, M. Polini, A. Tredicucci, G.M. Williams,
B.H. Hong, J.-H. Ahn, J.M. Kim, H. Zirath, B.J. van Wees, H. van der Zant,
L. Occhipinti, A. Di Matteo, I.A. Kinloch, T. Seyller, E. Quesnel, X. Feng, K. Teo,
N. Rupesinghe, P. Hakonen, S.R.T. Neil, Q. Tannock, T. Löfwander and J. Kinaret,
Nanoscale. 7 (11), 4598 (2015). https://doi.org/10.1039/C4NR01600A.
304. W.S. Hummers and R.E. Off eman, J. Am. Chem. Soc. 80, 1339 (1958).
305. D.M. Gattia, A.M. Vittori and R.A.C. Marazzi, Nanotechnology. 18, 255604 (2007).
306. A.N. Obraztsov, E.A. Obraztsova, A.V. Tyurnina and A.A. Zolotukhin, Carbon. 45,
2017 (2007).
307. A.S. Tikhomirov, N.E. Sorokina, O.N. Shornikova, V.A. Morozov, G. van Tendeloo
and V.V. Avdeev, Carbon. 49, 147 (2011).
308. A.J. Cooper, N.R. Wilson, I.A. Kinloch and R.A.W. Dryfe, Carbon. 66, 340 (2014).
309. P. Yu, S.E. Lowe, G.P. Simon and Y.L. Zhong, Curr. Open Colloid Interface Sci. 20,
329 (2015).
310. I. Rea, M. Casalino, M. Terracciano, L. Sansone, J. Politi, L. de Stefano. Photoluminescence
enhancement of graphene oxide emission by infi ltration in an aperiodic
porous silicon multilayer. Optics express. 24 (21), 24413 (2016)
311. V. Štengl, S. Bakardjieva, J. Henych, K. Lang and M. Kormunda, Carbon. 63, 537
(2013).
312. N. Fuyuno, D. Kozawa, Y. Miyauchi, S. Mouri, R. Kitaura, H. Shinohara, T. Yasuda,
N. Komatsu and K. Matsuda, Adv Optical Mater. 2 (10), 983 (2014).
313. X. Li, M. Rui, J. Song, Z. Shen and H. Zeng, Adv. Funct. Mater. 25, 4929 (2015).
314. A. Eckmann, A. Felten, A. Mishchenko, L. Britnell, R. Krupke, K.S. Novoselov and
C. Casiraghi, Nano Letters. 12 (8), 3925 (2012).
315. Y.Y. Wang, Z.H. Ni, Y. Ting, Z.X. Shen, H.M. Wang, Y.H. Wu, W. Chen and A.T.S. Wee,
J. Phys. Chem. C. 112, 10637 (2008).
316. Y. Zhu, S. Murali, W. Cai, X. Li, J.W. Suk, J.R. Potts and R.S. Ruoff , Adv. Mater. 22, 3906
(2010).
317. D. Yoon, H. Moon, H. Cheong, J.S. Choi, J.A. Choi and B.H. Park, J. Korean Phys.
Soc. 55, 1299 (2006).
318. A.A.K. King, B.R. Davies, N. Noorbehesht, P. Newman, T.L. Church, A.T. Harris, J.M. Razal
and A.I. Minett, Scientifi c Reports. 6, 19491 (2016). DOI: 10.1038/srep19491.
319. D. Voiry, J. Yang, J. Kupferberg, R. Fullon, C. Lee, H.Y. Jeong, H.S. Shin and
M. Chhowalla, Science. 353 (6306), 1413 (2016).
321. J.A. Yan, L. Xian and M.Y. Chou, Phys. Rev. Lett. 103, 086802 (2009).
322. M. Lundie, Z. Sljivancanin and S. Tomic, J Phys Conf Ser. 526, 012003 (2014).
323. C.T. Chien, S.S. Li, W.J. Lai, Y.C. Yeh, H.A. Chen, I.S. Chen, L.-C. Chen, K.-H. Chen,
T. Nemoto, S. Isoda, M. Chen, T. Fujita, G. Eda, H. Yamaguchi, M. Chhowalla and
C.-W. Chen, Angew Chem Int. Ed Engl. 51, 6662 (2012).
324. S. Zhu, Q. Meng, L. Wang, J. Zhang, Y. Song, H. Jin, K. Zhang, H. Sun, H. Wang and
B. Yang, Angew Chem Int. Ed Engl. 52 (14), 3953 (2013).
325. W. Zhang, D. Dai, X. Chen, X. Guo and J. Fan, Appl. Phys. Lett. 104, 091902 (2014).
326. C.J. Reckmeier, J. Schneider, A.S. Susha and A.L. Rogach, Opt Express. 24, A312
(2016).
327. J. Shang, L. Ma, J. Li, W. Ai, T. Yu and G.G. Gurzadyan, Sci. Rep. 2, 792 (2012).
328. M. Tian, Z. Wei, X. Zan, L. Zhang, J. Zhang, Q. Ma, N. Ning and T. Nishi, Composites
Science and Technology. 99, 37 (2014).
329. Ş. İnce, Y. Seki, M.A. Ezan, A. Turgut and A. Erek, Renewable Energy. 75, 243 (2015).
330. F.-A. He, H.-J. Wu, X.-L. Yang, K.-H. Lam, J.-T. Fan and L.-W. H. Chan, Polymer
Testing. 42, 45 (2015).
331. X. Sun, X. Liu, X. Shen, Y. Wu, Z. Wang and J.-K. Kim, Composites Part A: Applied
Science and Manufacturing. 85, 199 (2016).
332. L. Sisti, J. Belcari, L. Mazzocchetti, G. Totaro, M. Vannini, L. Giorgini, A. Zucchelli
and A. Celli, Polymer Testing. 50, 283 (2016).
333. X. Ji, Y. Xu, W. Zhang, L. Cui and J. Liu, Composites Part A: Applied Science and
Manufacturing. 87, 29 (2016).
334. G.C.-L. Chiang and S.-W. Hsu, Polymer International. 59(1), 119 (2010).
335. A. Cireli, N. Onar, M.F. Ebeoqluqil, I. Kavatekin, B. Kutlu, O. Culha and E. Celik,
J. Appl. Polym. Sci. 105, 3748 (2007).
336. S. Karatas, Z. Hosqor, Y. Menceloglu, N. Kayaman-Apohan and A. Gungor, J. Appl.
Polym. Sci. 102, 1906 (2006).
337. D.K. Chattopadhyay and K.V.S.N. Raju, Prog. Polym. Sci. 32, 352 (2007).
338. M. Nedielko, S. Hamamda, O. Alekseev, V. Chornii, M. Dashevskii, M. Lazarenko,
K. Kovalov, S.G. Nedilko, S. Tkachov, S. Revo and V. Scherbatskyi, Nanoscale Res
Lett. 12(1), 98 (2017). doi: 10.1186/s11671-017–1862-x.
339. S.G. Nedilko, In: Nanochemistry, Biotechnology, Nanomaterials, and Th eir Applications,
edited by O. Fesenko and L. Yatsenko, Springer Proceedings in Physics,
(Springer, Cham. 2018), vol. 214., pp. 247—275.
340. V. Chornii, S.G. Nedilko, M. Miroshnichenko, K. Terebilenko, M. Slobodyanik, Materials
Research Bulletin. 90, 237 (2017).
341. A. Orlova, V.V. Sokolov, J.A. Kukushkina, O.V. Almjasheva, Nanosystems: physics,
chemistry, mathematics. 3 (5), 138 (2012).
342. R. Marin, G. Sponchia, E. Zucchetta, P. Riello, F. Enrichi, G. De Portu and A. Benedetti,
J. Am. Ceram. Soc. 96, 2628 (2013).
343. I. Prochazka, J. Cizek, O. Melikhova, T.E. Konstantinova and I.A. Danilenko, Acta
Polonica A. 125, 760 (2014).
344. Yu.S. Kuz’minov, E.E. Lomonova and V.V. Osiko, Cubic zirconia and skull melting
(Cambridge Int. Science Publishing, Cambridge, 2008).
345. C.G. Kontoyannis and M. Orkoula, J. Mat. Sc. 29, 5316 (1994).