本人长期从事低维材料的计算研究,发展了输运计算的新方法,在纳米管、 石墨烯、硅烯等低维材料的几何结构、电/声子结构及其输运方面作出了系列工 作,为其在微电子器件中的应用提供了理论基础。在 Phys. Rev. B , Appl.Phys. Lett ., Nanoscale , J. Mater. Chem. C 等主流期 刊发表 SCI 论文 26 篇,被SCI论文正面引用 573 次(Google Scholar为 791 次),H 因子 12 (Google Scholar)。 以第一/通讯作者发表 16 篇,12 篇影响 因子大于 3 ,包括 6 篇 Phys. Rev. B ,2 篇 ESI 高引用论文 。4 次在重要学术 会议做 邀请报告。
教育经历:
2007/9 - 2010/6,复旦大学,博士
2001/9 - 2007/6,湘潭大学,本科、硕士
工作经历:
2012/12 - 至今,湘潭大学, 副教授
2015/9 - 2016/9,德州大学奥斯汀分校,访问学者
2011/9 - 2014/1,东京大学,博士后
2010/7 - 2012/12,湘潭大学,讲师
1. 界面电子结构计算
2. 纳米材料热、电输运计算
3. 纳米材料自旋输运计算
1. 湘潭大学校长奖,特等奖
2. 湘潭市优秀论文特等奖
3. 湖南省优秀硕士论文奖励
4. 湖南省优秀论文二等奖
1. 湖南省自然科学基金项目:“二维纳米体系热输运性质及其调控的及计算
研究”
,2015.1-2017.12
2. 国家自然科学基金青年项目:“纳米材料热、电输运性能的基底效应与调 控” ,2013.1-2015.12
*为通讯作者,引用次数来源于 Google 检索
1. ? Z. X. Guo, D. Zhang, and X. G. Gong, Thermal conductivity of graphene nanoribbons, Applied Physics Letters, 95, 163103 (2009) (ESI 高引论文,被引 283 次).
2. Z. X. Guo, S. Furuya, J.-I. Iwata, and A. Oshiyama, Absence and presence of Dirac electrons in silicene on substrates, Physical Review B 87, 235435 (2013) (ESI 高引论文,被引 144 次).
3. Z. X. Guo, S. Furuya, J.-I. Iwata, and A. Oshiyama, Absence of Dirac electrons in silicene on Ag(111) surfaces, J. Phys. Soc. Jpn. 82, 063714 (2013). (Editor‘s Choice, 被引 66 次).
4. Z. X. Guo and A. Oshiyama, Structural bistability and deep Dirac states in bilayer silicene on Ag(111) surfaces, Physical Review B 89, 155418 (2014) (被引 46 次).
5. Z. X. Guo*, Y. Y. Zhang, H. J. Xiang, X. G. Gong, and A. Oshiyama, Structural evolution and optoelectronic applications of multilayer silicene, Physical Review B (Raid Communications) 92, 201413 (2015).
6. Z. X. Guo, D. Zhang, and X. G. Gong, Manipulating thermal conductivity through substrate coupling, Physical Review B 84, 075470 (2011).
7. P. Li, J. X. Cao, and Z. X. Guo*, A new approach for fabricating germanene with Dirac electrons preserved: a first principles study, Journal of Materials Chemistry C 4, 1736 (2016).
8. Z. X. Guo and A. Oshiyama, Crossover between silicene and ultra-thin Si atomic layers on Ag (111) surfaces,New Journal of Physics, 17, 045028 (2015).
9. Z. X. Guo*, J. W. Ding, and X. G. Gong, Substrate effects on the thermal conductivity of epitaxial graphene nanoribbons, Physical Review B 85, 235429 (2012).
10. Z. X. Guo, D. Zhang, Y. T. Zhai, and X. G. Gong, The intriguing thermal conductivity of ice Nanotubes, Nanotechnology 21, 285706 (2010).
11. Z. X. Guo, J. W. Ding, Y. Xiao, and D. Y. Xing, Raman frequency shift in oxygen-functionalized carbon nanotubes, Nanotechnology 18, 465706 (2007)
12. Z. X. Guo, Y. Xiao, J, W. Ding, and X. H. Yan, Lattice dynamics of single-walled achiral BC3 nanotubes, Physical Review B 73, 045405 (2006).
13. Z. X. Guo, J.W. Ding, Y. Xiao, and Y. L. Mao,Lattice dynamics of carbon chain inside a carbon nanotube, Journal of Physical Chemistry B 110, 21803 (2006).
