References
- Qi, H., & Hegmann, T. (2008). J. Mater. Chem., 18, 3288–3294.
- Bisoyi, H. K., & Kumar, S. (2011). Chem. Soc. Rev., 40, 306–319.
- Yu, H., & Ikeda, T. (2011). Adv. Mater., 23, 2149–2180.
- White, T. J., Bricker, R. L., Natarajan, L. V., Tabiryan N. V., Green L., Li Q., & Bunning T.J. (2009). Adv. Funct. Mater., 19, 3484–3488.
- Wang, H. H., Wang, L., Xie, H., Li, C. Y., Guo, S. M., Wang, M., Zou, C., Yang, D. K., & Yang, H. (2015). RSC Adv., 5, 33489–33495.
- Dong, X., Long, Q., Wang, J., Chan-Park, M. B., Huang, Y., & Chen, P. (2011). Nanoscale, 3, 5156–5160.
- Dong, X., Xing, G., Chan-Park, M. B., Shi, W., Xiao, N., Wang, J., & Chen, P. (2011). Carbon, 49, 5071–5078.
- Dong X., Long, Q., Wei, A., Zhang, W., Li, L. J., Chen, P., & Huang, W. (2012). Carbon, 50, 1517–1522.
- Dong, X., Huang, W., & Chen, P. (2011). Nano. Res. Lett., 6, 1–6.
- Stamatoiu, O., Mirzaei, J., Feng, X., & Hegmann, T. (2012). Top. Curr. Chem., 318, 331–393.
- Kaur, S., Singh, S. P., Biradar, A. M., Choudhary, A., & Sreenivas, K. (2007). Appl. Phys. Lett., 91, 023120.
- Li, B. F., Huang, H., Ding, X. K., Li, W. B., Yin, Y. H., Wang, L. P., Cao, H., & Yang, H. (2008). Liq. Cryst., 35, 49–54.
- Shiraishi, Y., & Toshima, N. (2002). Appl. Phys. Lett., 81, 2845–2847.
- Lee, W., Wang, C. Y., & Shih, Y. C. (2004). Appl. Phys. Lett., 85, 513–515.
- Twombly, C. W., Evansand, J. S., & Smalyukh, I. (2013). Opt. Express., 21, 1324–1334.
- Geim, A. K. (2009). Science, 324, 1530–1534.
- Geim, A. K., & Novoselov, K. S. (2007). Nat Mater, 6, 183–191.
- Marcano, D.C., Kosynkin, D.V., Berlin, J.M., Sinitskii, A., Sun, Z.Z., Slesarev, A., Alemany, L.B., Lu W., & Tour, J.M. (2010). ACS Nano, 4, 4806–4814.
- Longun, J., & Iroh, J.O. (2012). Carbon, 50, 1823–1832.
- Szabó, T., Berkesi, O., & Dékány, I. (2005). Carbon, 43, 3186–3189.
- Ramanathan, T., Abdala, A. A., Stankovich, S., Dikin D. A., Herrara-Alonso, M., Piner, R. D., Adamson, D. H., Schniepp, H. C., Chen X., Ruoff, R. S., Nguyen, S. T., Aksay, I. A., Prud'homme, R. K., & Brinson, L. C. (2008). Nat. Nanotechnol., 3, 327–331.
- Stankovich, S., Dikin, D. A., Dommett, G. H. B., Kohlhaas, K. M., Zimney, E. J., Stach, E. A., Piner, R. D., Nguyen, S. T., & Ruoff, R. S. (2006). Nature, 442, 282–286.
- Xu, Z., & Gao, C. (2011). Nature Commun, 2, 571.
- Kim, B. K., Jang, M.W., Park, H. C., Jeong, H. M., & Kim, E. Y. (2012). J. Polym. Sci. Part A: Polym. Chem., 50, 1418–1423.
- Bian, Z. Y., Li, K. X., Huang, W., Cao, H., & Yang, H. (2007). Appl. Phys. Lett., 91, 201908.
- Cao, W., Munoz, A., Palffy-Muhoray, P., & Taheri, B. (2002). Nat. Mater., 1, 111–113.
- Yan, J., Rao, L., Jiao, M., Cheng, H.C., & Wu, S.T. (2011). J. Mater. Chem., 21, 7870–7877.
- Ravnik, M., Alexander, G. P., Yeomans, J. M., & Zumer, S. (2010). Faraday Discuss., 144, 159–169.
- Rozic, B., Tzitzios, V., Karatairi, E., Tkalec, U., Nounesis, G., Kutnjak, Z., Gordoyiannis, G., Rosso, R., Virga, E. G., Musevic, I., & Kralj, S. (2011). Eur. Phys. J. E, 34, 17.
- Stankovich, S., Piner, R. D., Chen, X. Q., Wu, N. Q., Nguyen, S. T., & Ruoff, R. S. (2006). J. Mater. Chem., 16, 155–158.
- Hummers, W. S., & Offeman, R. E. (1958). J. Am. Chem. Soc., 80, 1339.
- Gilje, S., Han, S., Wang, M., Wang, K. L., & Kaner, R. B. (2007). Nano Lett., 7, 3394–3398.
- Kovtyukhova, N. I., Ollivier, P. J., Martin, B. R., Mallouk, T. E., & Chizhik, S. A. (1999). Chem. Mater., 11, 771–778.
- Paredes, J.I., Villar-Rodil, S., Martinez-Alonso, A., & TascO´n, J. M. D. (2008). Langmuir, 24, 10560–10564.
- Stankovich, S., Dikin, D. A., Piner, R. D., Kohlhaas, K. A., Kleinhammes, A., Jia, Y. Y., Wu, Y., Nguyen, S.T., & Ruoff, R.S. (2007). Carbon, 45, 1558–1565.