References
- 1. Gengler, R.Y.N., Veligura, A., Enotiadis, A., Diamanti, E.K., Gournis, D., Jozsa, C., van Wees, B.J., & Rudolf, P. (2010). Large-yield preparation of high-electronic-quality graphene by a Langmuir-Schaefer approach. Small, (8), 35-9.
- 2. Wassei, J.K., & Kaner, R.B. (2010). Graphene, a promising transparent conductor.Mater. Today, 13, 52-9.
- 3. Shao, Y., Wang, J., Wu, H., Liu, J., Aksay, I.A., & Lin, Y. (2010). Graphene based electrochemical sensors and biosensors: a review. Electroanalysis, 22, 1027-36.
- 4. Geim, A.K. (2009) Graphene: status and prospects. Science, 324, 1530-4
- 5. Liang, X., Fu, Z., & Chou, S.Y. (2007) Graphene transistors fabricated via transferprinting in device active-areas on large wafer. Nano. Lett., (7), 3840-4.
- 6. De, S., King, P.J., Lotya, M., O`Neill, A., Doherty, E.M., Hernandez, Y., Duesberg, G.S., & Coleman, J.N. (2010). Flexible, transparent, conducting films of randomly stacked graphene from surfactant-stabilized, oxide-free graphene dispersions. Small, (6), 458-64.
- 7. Huang, N.M., Lim, H.N., Chia, C.H., Yarmo, M.A., & Muhamad, M.R. (2011). Simple room-temperature preparation of high-yield large-area graphene oxide. Int. J. Nanomed, (6), 3443-8.
- 8. Cote, L.j., Kim, F., & Huang, J. (2009) Langmuir-Blodgett assembly of graphite oxide single layers. J. Am. Chem., 131, 1043-9.
- 9. Dimiev, A., Kosynkin, D.V., Alemany, L.B., Chaguine, P., & Tour, J.M. (2012). Pristine graphite oxide. JACS, 134, 2815-22.
- 10. McAllister, M.J., Li, J.L., Adamson, D.H., Schniepp, H.C., Abdala, A.A., & Liu, J. (2007). Single sheet functionalized graphene by oxidation and thermal expansion of graphite. Chem. Mater., 19, 1396-404
- 11. Cote, L.J., Kim, J., Tung, V.C., Luo, J., Kim, F., & Huang, J. (2010). Graphene oxide as surfactant sheets. Pure Appl. Chem., 83, 95-10.
- 12. Kim, F., Cote, L.J., Huang, J. (2010) Graphene oxide: surface activity and twodimensional assembly. Adv. Mater., 22, 1954-8