◎研究方向 1.纳米光电子材料 2.光通信 ◎学习与工作经历 1993.9-1997.7,聊城大学,物理教育学士; 2002.9-2005.4,电子科技大学,光学工程硕士; 2013.9-2017.7,中国海洋大学,海洋探测技术博士; 2005.4至今,必赢线路检测3003(华东),光电科学与工程系,讲师。
◎主讲课程 1.主讲本科生必修课。《量子计算与通信》《大学物理》《光电子材料与器件》等课程 ◎承担和参与项目 (1)InP-QD/TiO2异质结光裂解H2O的第一性原理研究, 国家自然科学基金,2016,排名第3。 ◎论文 1.第一作者主要论文: (1)Song X., Sun Y., Dong M., Li C., Wang J., Mimura H., Yuan G*., Effects of Cl adatom on Na-decorated graphene. Journal of Physics D: Applied Physics 2015, 48 22, 225304 1-7. (2)Song X*., Yuan g., Dong M., Mimura H., Chun L., Niu M., First principles study the effects of alkali metal and chorine adatoms on the opposite surface of graphene, Chemical Physics Letters, 2018, 694, 1-6. (3)Song X*., Dong M., Yuan G., Tang H., Li D., Chen Q., Sun W., Wang Y., Ouyang B., Jin J., First-principles study of lithium and chlorine co-decorated graphene, Mater. Res. Express 2019, 6, 105603. (4)Song X*., Chen Q., Dong M., Yuan G., Li D., Ouyang B., Wang Y., Sun W., Effects of chlorine adatoms on small lithium nanoclusters adsorbed on graphene, Chemical Physics Letters 2020, 738, 136896. (5)X. Song, M. Dong, Y. Li, Y. Wu, Y. Sun, G. Yuan, D. Li, Y. Li, Formaldehyde adsorption effects of chlorine adatoms on lithium-decorated graphene: A DFT study, Chemical Physics Letters 761(16) (2020) 138085. 2.第二作者(通讯作者)主要论文: (1)Yuan G*., Song X., Mimura H. Modulation of the work function of graphene by Na and Cl coadsorbed on opposite sides on graphene. Journal of Vacuum Science & Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena,2017, 35(2), 02C104. (2)孙宇, 宋新祥, 汪洁生, 元光#, 羟基修饰石墨烯纳米带吸附钠和氯原子的影响, 中国海洋大学学报(自然科学版)自然科学版, 2017(s1). (3)Dong M., Song X., Interaction of chlorine adatom with lithium adatom on opposite sides of graphene, IOP Conference Series: Materials Science and Engineering. IOP Publishing, 2018, 307(1), 012033 ◎学术兼职 担任《Physica Scripta》SCI期刊审稿人。 |