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[1] H. Gao*, Y. Zhou, K. Chen, X. Li,Synthesis of Tb4O7 complexed with reduced graphene oxide for Rhodamine-B absorption, Materials Research Bulletin, 77,111-114, 2016.
[2] H. Gao*, X.L. Li, YF. Wang, HJ. Guo, Y. Wang, Size-Selective Cu Nanocrystals Growth on Single and 2-3 Layers Graphene Films, Journal of Nanoscience Nanotechnology, 15(9), 7367-7370, 2015
[3] H. Gao*, H. Guo, J. Chen, Synthesis of Sulfur-doped Graphene from Sulfonated Polystyrene, Advanced Materials Research, 941-944, 235-238, 2014
[4] H. Gao* L. Guo, L. Wang, Y. Wang, Synthesis of nitrogen-doped graphene from polyacrylonitrile, Materials Letters, 109(15), 182-185, 2013.
[5] H. Gao*, Y. Zhang, Oxidation of CVD growth single-layer graphene, Advanced Materials Research, 790, 7-10, 2013.
[6] H. Gao*, Z. Liu, L. Song, W. Guo, W. Gao, L. Ci, A. Rao, W. Quan, R. Vajtai, P.M. Ajayan, Synthesis of S-doping graphene by liquid precursor, Nanotechnology,23, 275605, 2012.
[7] H. Gao*, L.Song, W. Guo, L. Huang, D. Yang, F. Wang, Y. Zuo, X. Fan, Z. Liu, W. Gao, R. Vajtai, K. Hackenberg, P. M. Ajayan, A simple method to synthesize continuous large area nitrogen-doped graphene, Carbon, 12, 4476-4482, 2012
[8] H. Gao*, Y. Wang, Y. Liu, E. Xie, P.M. Ajayan, Synthesis of Large-area and Monolayer of Graphene: Role of Transition Metal Support and Growth Time by CVD Method, Advanced Materials Research, 306-307, 331-335, 2011
[9] Z. Xue, H. Gao*, X. Li*, A Green and lower-temperature synthesis of two-color fluorescent nitrogen doped graphene quantum dots, Dyes and Pigments, 156, 379-385, 2018
[10] Y. Pang, H. Gao*, L. Lai, X. Li*, Facile synthesis of the nitrogen-doped graphene quantum dots at low temperature for cellular labeling, Materials Research Bulletin, 104, 8-86, 2018
[11] S. Zhang, H. Gao*, J. Zhou*, Reduced graphene oxide-modified Ni-Co phosphate nanosheet self-assembled microplates as high-performance electrode materials for supercapacitors, Journal of Alloys and Compounds, 549-556, 746, 2018
[12] K. Jin, H. Gao*, L. Lai, Y. Pang, S. Zheng, Y. Niu, X. Li*, Preparation of highly fluorescent Sulfur doped graphene quantum dots for live cell imaging, Journal of Luminescence, 197,147-152, 2018
[13] K. Chen, H. Gao*, D. Wang, X. Li*, D. Wang, W. Khan, The preparation of a three dimensional terbium doped reduced graphene oxide aerogel with photoluminescence, paramagnetic properties, RSC Advances, 9287-9292, 8, 2018
[14] K. Chen, H. Gao*, B. Bai, W. Liu, X. Li*, Microwave hydrothermal synthesis of terbium ions complexed with porous graphene for effective absorbent for organic dye, Nanoscale Research Letters, 12, 204, 2017
[15] Y. Pang, H. Gao*, S. Wu, X. Li*, Facile synthesis the nitrogen and sulfur co-doped carbon dots for selective fluorescence detection of heavy metal ions, Materials Letters, 236-239, 193, 2017
[16] W. Yang, H. Gao*, Y. Zhao, K. Bi, X. Li*, Facile preparation of nitrogen-doped graphene sponge as a highly efficient oil absorption material, Materials Letters, 95-99, 178, 2016
[17] J. Niu, H. Gao*, L. Wang, S. Xin, G. Zhang, Q. Wang, L. Guo, W. Liu, X. Gao, Y. Wang, Facile Synthesis and Optical Properties of Nitrogen-doped Carbon Dots, New Journal of Chemistry, 1522-1527, 38, 2014
[18] Y. Zhang, H. Gao*, J. Niu, BT. Liu, Facile synthesis and photoluminescence of graphene oxide quantum dots and their reduction products, New Journal of Chemistry, 38, 4970-4974, 2014.
[19] D. Wang, H. Gao*, E. Roze, K. Qu, W. Liu, Y. Shao, S. Xin, Y. Wang, Synthesis and photoluminescence of three-dimensional europium-complexed graphene macroassembly, Journal of Materials Chemistry C, 1, 5772-5778, 2013.
[20] S. Zhang, H. Gao*, M. Huang, J. Zhou, One-step hydrothermal synthesis of nitrogen doping graphene based cobalt oxide and its supercapacitive properties, Journal of Alloys and Compounds, 705, 801-805, 2017