[1] J. P. Paraknowitsch and A. Thomas, Energy & Environmental Science 6, 2839 (2013).
[2] L. Song, Z. Liu, A. L. M. Reddy, N. T. Narayanan, J. Taha-Tijerina, J. Peng, G. H. Gao, J. Lou, R. Vajtai and P. M. Ajayan, Advanced Materials 24, 4878 (2012).
[3] D. Portehault, C. Giordano, C. Gervais, I. Senkovska, S. Kaskel, C. Sanchez and M. Antonietti, Advanced Functional Materials 20, 1827 (2010).
[4] X. F. Liu, S. Ye, Y. B. Qiao, G. P. Dong, Q. Zhang and J. R. Qiu, Chemical Communications 27, 4073 (2009).
[5] M. Wang, S. K. Jang, W. J. Jang, M. Kim, S. Y. Park, S. W. Kim, S. J. Kahng, J. Y. Choi, R. S. Ruoff and Y. J. Song, Advanced Materials 25, 2746 (2013).
[6] J. F. Xie, Z. Y. Zhang, D. Z. Yang, D. S. Xue and M. S. Si, Journal of Physical Chemistry Letters 5, 4073 (2014).
[7] Y. Miyamoto, A. Rubio, S. G. Louie and M. L. Cohen, Physical Review B: Condensed Matter 50, 18360 (1994).
[8] M.O. Watanabe, S. Itoh, T. Sasaki and K. Mizushima, Physical Review Letters 77, 187 (1996).
[10] B. W. Nuryadin, T. P. Pratiwi, F. Iskandar, M. Abdullah, K. Khairurrijal, T. Ogi and K. Okuyama, Advanced Powder Technology 25, 891 (2014).
[11] Q. L. Chen and S. Z. Lü, Optoelectronics Letters 11, 370 (2015).
[12] W. W. Lei, D. Portehault, R. Dimova and M. Antonietti, Journal of American Chemical Society 133, 7121 (2011).
[13] L. L. Li, J. Ji, R. Fei, C. Z. Wang, Q. Lu, J. R. Zhang, L. P. Jiang and J. J. Zhu, Advanced Functional Materials 22, 2971 (2012).
[14] T. Ogi, Y. Kaihatsu, F. Iskandar, W. Wang and K. Okuyama Advanced Materials 20, 3235 (2008).
[15] Z. Y. Chu, Y. Kang, Z. H. Jiang, G. Y. Li, T. J. Hu, J. Wang, Z. F. Zhou, H. Y. Li and X. J. Wang, RSC Advances 4, 26855 (2014).
[16] X. J. Bai, L. Wang and Y. F. Zhu, ACS Catalysis 2, 2769 (2012).
[17] W. N. Wang, T. Ogi, Y. Kaihatsu, F. Iskandar and K. Okuyama, Journal of Materials Chemistry 21, 5183 (2011).
