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1.X. Gong, Y. Liu, H. Xiang, H. Liu, Z. Liu, X. Zhao, J. Li, H. Li, G. Hong, T. S. Hu, H. Chen, S. Liu and G. Yu, Membraneless reproducible MoS2 field-effect transistor biosensor for high sensitive and selective detection of FGF21. Science China Materials doi.org/10.1007/s40843-019-9444-y (2019)
2.Wei, X. J. Li, C. Liang, Z. P. Zhang, J. Guo, G. Hong, G. C. Xing, W. Huang, Recent progresses in metal halide perovskite micro- and nanolasers. Advanced Optical Materials 1900080 (2019)
3.G. Li, D. Dong, G. Hong, L. Yan, X. T. Zhang, W. H. Song, High-efficiency cryo-thermocells assembled with anisotropic holey graphene aerogel electrodes and a eutectic redox electrolyte. Advanced Materials 1901403 (2019)
4.H. Sun, J. G. Li, L. Lv, Z. Li, X. Ao, C. Xu, X. Xue, G. Hong, C. D. Wang, Engineering hierarchical CoSe/NiFe Layered-double hydroxide nanarrays as high efficient bifunctional electrocatalyst for overall water splitting. Journal of Power Sources 425, 138-146. (2019)
5.L. Han, Y. L. Zhong, Y. Su, L. T. Wang, L. S. Zhu, X. F. Fei, Y. Z. Dong, G. Hong, Y. T. Zhou, D. Fang, Nanocomposites based on 3D macroporous biomass carbon with SnS2 nanosheets hierarchical structure for efficient removal of hexavalent chromium. Chemical Engineering Journal 369, 1138-1149. (2019)
6.Q. Yan, Y. Su, X. Fei, L. Zhu, L. Han, G. Hong, H. Zhu, D. Fang, Ag3PO4@Ni3S2 core/shell nanorod arrays for visible light degradation of organic contaminants. Materials Research Express 6, 065009. (2019)
7.X. Wu, G. Hong, X. Zhang, Electroless plating of graphene aerogel fibers for electrothermal and electromagnetic applications. Langmuir 35, 3814-3821. (2019)
8.L. Han, Y. L. Zhong, K. Lei, D. Mao, Y. Z. Dong, G. Hong, Y. T. Zhou, D. Fang, Carbon dots-SnS2 heterojunction photocatalyst for photoreduction of Cr(VI) under visible light: a combined experimental and first-principles DFT study. Journal of Physical Chemistry C 123, 2398-2409. (2019)
9.Luo, X. Ao, Z. S. Li, L. Lv, J. G. Li, G. Hong, Q. H. Wu, C. D. Wang, Imbedding ultrafine Sb2S3 nanoparticles in mesoporous carbon sphere for high-performance lithium-ion battery. Electrochimica Acta 290, 185-192 (2018)
10.X. H. Wu, J. Lyu, G. Hong, X. C. Liu, X. T. Zhang, Inner surface functionalized graphene aerogel microgranules with static microwave attenuation and dynamic infrared shielding. Langmuir 34, 9004-9014 (2018)
11.Y. L. Zhong, L. Han, X. Q. Yin, H. F. Li, D. Fang, G. Hong, Three dimensional functionalized carbon/tin(IV) sulfide biofoam for photocatalytical purification of chromium(VI)-containing wastewater. ACS Sustainable Chemistry & Engineering 6, 10660-10667 (2018)
12.G. Y. Li, G. Hong, D. P. Dong, W. H. Song, X. T. Zhang, Multiresponsive Graphene-Aerogel-Directed Phase-Change Smart Fibers. Advanced Materials 30, 1801754 (2018)
13.M. C. Zhang, K. Chen, C. Y. Wang, M. Q. Jian, Z. Yin, Z. L. Liu, G. Hong, Z. F. Liu, Y .Y. Zhang, Mineral-templated three-dimensional graphene architectures for energy-efficient electrodes. Small 14, 1801009 (2018)
14.J. Sun, P. Man, Q. Zhang, Z. Zhou, C. Li, X. Wang, J. Guo, J. Zhao, L. Xie, Q. Li, J. Sun, G. Hong, Y. Yao, Hierarchically-structured Co3O4 nanowire arrays grown on carbon nanotube fibers as novel cathodes for high-performance wearable fiber-shaped asymmetric supercapacitors. Applied Surface Science 447, 795-801 (2018)
15.Z. Li, L. Lv, J. Wang, X. Ao, Y. Ruan, D. Zha, G. Hong, Q. Wu, Y. Lan, C. Wang, J. Jiang, M. Liu, Engineering phosphorus-doped LaFeO3-δ perovskite oxide as robust bifunctional oxygen electrocatalysts in alkaline solutions. Nano Energy. 47, 199-209 (2018)
16.R. Straessle, S. Zimmermann, L. D. Carro, J. Zurcher, G. Schlottig, A. Achen, G. Hong, D. Poulikakos, T. Brunschwiler, Thermally conductive composite material with percolating microparticles applied as underfill. IEEE Transactions on Components, Packaging and Manufacturing Technology, DOI: 10.1109/TCPMT.2017.2775154 (2017)
17.X. C. Wang, G. Y. Li, G. Hong, Q. Guo, X. T. Zhang, Graphene aerogel templated fabrication of phase change microspheres as thermal buffers in microelectronic devices. ACS Applied Materials & Interfaces 9, 41323-41331 (2017)
18.G. Hong, The surface property of graphene. Nanomedicine & Nanotechnology 2, 000118 (2017)
19.G. Hong, Y. Han, T. M. Schutzius, Y. M. Wang, Y. Pan, M. Hu, J. S. Jie, C. S. Sharma, U. Muller, D. Poulikakos, On the mechanism of hydrophilicity of graphene. Nano Letters 16, 4447-4453 (2016)
20.Y. Pan, G. Tagliabue, C. Holler, S. Droscher, H. Eghlidi, G. Hong, D. Poulikakos, A rapid response thin-film plasmonic-thermoelectric light flux detector. Scientific Reports 6 37564 (2016)
21.G. Hong, T. M. Schutzius, S. Zimmermann, B. R. Burg, J. Zücher, T. Brunschwiler, G. Tagliabue, B. Michel, D. Poulikakos, In situ assembly in confined spaces of coated particle scaffolds as thermal underfills with extraordinary thermal conductivity. ACS Applied Materials & Interfaces 7, 838-844 (2015)
22.Y. Pan, G. Hong, S. N. Raja, S. Zimmermann, M. K. Tiwari, D. Poulikakos, Significant thermal conductivity reduction of silicon nanowire forests through facile discrete surface doping of germanium. Applied Physics Letters 106, 093102 (2015)
23.G. Hong, Q. H. Wu, J. G. Ren, C. D. Wang, W. J. Zhang, S. T. Lee, Recent progress in organic molecule/graphene interfaces. Nano Today 8, 388-402 (2013)
24.G. Hong, Q. H. Wu, C. D. Wang, J. G. Ren, T. T. Xu, W. J. Zhang, S. T. Lee, Surface doping of nitrogen atoms on graphene via molecular precursor. Applied Physics Letters 102, 051610 (2013)
25.Q. H. Wu, G. Hong, S. T. Lee, Modification of CuPc/graphene interfacial electronic structure with F16CuPc. Organic Electronics 14, 542-547 (2013)
26.J. G. Ren, Q. H. Wu, G. Hong, W. J. Zhang, H. M. Wu, K. Amine, J. B. Yang, S. T. Lee, Silicon-graphene composite anodes for high-energy lithium batteries. Energy Technology 1, 77-84 (2013)
27.Q. H. Wu, Y. Q. Zhao, G. Hong, J. G. Ren, C. D. Wang, W. J. Zhang, S. T. Lee, Electronic structure of MoO3-x/graphene interface. Carbon 65, 46-52 (2013)
28.J. G. Ren, Q. H. Wu, H. Tang, G. Hong, W. J. Zhang, S. T. Lee, Germanium-graphene composite anode for high-energy lithium batteries with long cycle life. Journal of Materials Chemistry A 1, 1821-1826 (2013)
29.C. D. Wang, Y. A. Zhou, L. F. He, T. W, Ng, G. Hong, Q. H. Wu, F. Gao, C. S. Lee, W. J. Zhang, In situ nitrogen-doped graphene grown from polydimethylsiloxane by plasma enhanced chemical vapor deposition. Nanoscale 5, 600-605 (2013)
30.G. Hong, Q. H. Wu, J. G. Ren, S. T. Lee, Mechanism of non-metal catalytic growth of graphene on silicon. Applied Physics Letters 100, 231604 (2012)
31.G. Hong, P. Li, Y. B. Chen, J. Zhang, Controlling the growth of single-walled carbon nanotubes on surface using metal and non-metal catalysts. Carbon 50, 2067-2082 (2012)
32.Q. H. Wu, G. Hong, T. W. Ng, S. T. Lee, Substrate effect on the electronic structures of CuPc/graphene interfaces. Applied Physics Letters 100, 161603 (2012)
33.G. Hong, M. Zhou, R. X. Zhang, S. M. Hou, W. Choi, Y. S. Woo, J. Y. Choi, Z. F. Liu, J. Zhang, Separation of metallic and semiconducting single-walled carbon nanotube arrays by “scotch tape”. Angewandte Chemie 50, 6819-6823 (2011)
34.G. Hong, B. Zhang, B. H. Peng, J. Zhang, W. M. Choi, J. Y. Choi, J. M. Kim, Z. F. Liu, Direct growth of semiconducting single-walled carbon nanotube array. Journal of American Chemical Society 131, 14642–14643 (2009)
35.B. Zhang, G. Hong, B. H. Peng, J. Zhang, W. Choi, J. M. Kim, J. Y. Choi, Z. F. Liu, Grow single-walled carbon nanotubes cross-bar in one batch. Journal of Physical Chemistry C 113, 5341-5344 (2009)
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