Литература:
1. Y.H. Wu, T. Yu, and Z. X. Shen. Two-dimensional carbon nanostructures: Fundamental properties, synthesis, characterization, and potential applications. Journal of applied Physics 108, 071301 (2010).
2. K. I. Bolotin, K. J. Sikes, Z. Jiang, M. Klima, G. Fudenberg, J. Home, P. Kim, H.L. Stormer. Ultrahigh electron mobility in suspended graphene. Solid State Communications 146 (2008) 351-355.
3. Cecilia Mattevi, Hokwon Kim and Manish Chhowalla. A review of chemical vapour deposition of graphene on copper.
4. Zhiping Xu and Kun Xue, Engineering graphene by oxidation: a first-principles study. Nanotechnology 21, 045704, 2010
5. Chung-Huai Chang, Xiaofeng Fan, Lain-Jong Li and Jer-Lai Kuo. Band gap tuning of graphene by adsorption of aromatic molecules. J. Phys. Chem. C, 2012, 116 (25), pp 13788-13794.
6. Yanwu Zhu, Shanthi Murali, Weiwei Cai, Xuesong Li, Ji Won Suk, Jeffrey R. Potts, and Rodney S. Ruoff. Graphene and graphene oxide: Synthesis, properties and applications. Adv. Mater. 2010, XX, 1-19.
7. Oded Hod, Veronica Barone, Juan E. Peralta, and Gustavo E. Scuseria. Enhanced Half-Metallicity in edge-oxidized Zigzag graphene nanoribbons. Nano letters, 2007, Vol. 7, No.8, 2295-2299.
8. Yuanbo Zhang, Tsung-Ta Tang, Caglar Girit, Zhao Hao, Michael C. Martin, Alex Zettl, Michael F. Crommie, Y. Ron Shen, and Feng Wang. Direct observation of a widely tunable bandgap in bilayer graphene. Nature letters, Vol. 459, 11 June 2009.
9. F. Bonaccorso, Z. Sun, T. Hasan and A.C. Ferrari. Graphene photonics and optoelectronics. Nature photonics, 2010,186.
10. L. A. Falkovsky. Optical properties of graphene. arXiv:0806.3663v2 [cond-mat.mes-hall] 24 Jun 2008.
11. Liu ZhiBo, Zhang XiaoLiang, Yan XiaoQing, Chen YoungSheng and Tian JianGuo. Nonlinear optical properties of graphene-based materials. Chinese Science Bulletin, August 2012, Vol. 57, No. 23, 2971-2982
12. Jun Wang, Yu Chen, Rihong Li, Hongxing Dong, Long Zhang, Mustafa Lotya, Jonathan N. Coleman and Werner J. Blau. Nonlinear optical properties of graphene and carbon nanotube composites.
13. Jablan. M.; Soljacic, M.; Buljan, H. Plasmons in graphene: fundamental properties and potential Applications. Proceedings of the IEEE, Vol. 101, Issue 7, July 2013.
14. Bao, Q. L. et al. Atomic-layer graphene as a saturable absorber for ultrafast pulsed
lasers. Adv. Funct. Mater. 19, 3077–3083 (2009).
15. Sun, Z. P. et al. Graphene mode-locked ultrafast laser. ACS Nano 4, 803–810
(2010).
16. Hengji Zhang, Geunsik Lee, and Kyeongjae Cho. Thermal transport in graphene and effects of vacancy defects. Physical review B 84, 115460 (2011)
17. Song, Y. W., Jang, S. Y., Han, W. S. & Bae, M. K. Graphene mode-lockers for
fi ber lasers functioned with evanescent fi eld interaction. Appl. Phys. Lett. 96,
051122 (2010).
18. Sun, Z. et al. Wideband tunable, graphene-mode locked, ultrafast laser.
Preprint at <http://arxiv.org/abs/1003.4714> (2010).
19. K. S. Novoselov, V. I. Fal’ko, L. Colombo, P.R. Gellert, M.G. Schwab and K. Kim. A roadmap for graphene. Nature, 192, Vol. 490, 11 October, 2012
20. J. W. Weber, V.E. Calado and M.C.M van de Sanden. Optical constants of graphene measured by spectroscopic ellipsometry. Applied physics letters 97, 091904 (2010)
21. Inhwa Jung, Matthew Pelton, Richard Piner, Dmitriy A. Dikin, Sasha Stankovich, Supinda Watcharotone, Martina Hausner and Rodney S. Ruoff. Simple approach for high-contrast optical imaging and characterization of graphene-based sheets.
22. Inhwa Jung, Yong Joo Ra, Jong Yeog Son, Yong Tae Kang, Kyong-Yop Rhee. Reconstruction of optical images of graphene-based materials coated on dielectric substrates. Optical engineering 52(2), 023601 (February 2013)
23. Huanping Yang, Hailong Hu, Yingying Wang, Ting Yu. Rapid and non-destructive identification of graphene oxide thickness using white light contrast spectroscopy. Carbon 52 (2013) 528-534.
24. V. Ryzhii, A.A. Dubinov, T. Otsuji, V. Mitin, and M.S. Shur. Terahertz lasers based on optically pumped multiple graphene structures with slot-line and dielectric waveguides. Journal of applied physics 107, 054505 (2010)
25. Duhee Yoon, Yuong-Woo Son, Hyeonsik Cheong. Negative thermal expansion coefficient of graphene measured by raman spectroscopy. Arxiv.papers/1107/1107.2469
