姓名:宋兴娟
研究方向:二维半导体材料与器件,低功耗光电器件,智能仿生芯片
导师类型:硕士生导师 主讲硕士生课程:电工电子学(三)
职称:讲师
专业:电子科学与技术
个人简介
宋兴娟,女,博士,77779193永利官网讲师。2021年毕业于华中科技大学并获博士学位;从事二维半导体纳米材料光电子器件的制备及其在光电、智能仿生方面的用研究。在Applied Surface Science、IEEE Transactions on Electron Devices、Energy 、Nanotechnology等SCI期刊发表了10余篇研究论文。
科研项目
1. 国家自然科学基金青年项目,62204080,用于光电忆阻的铁电栅基MoS2晶体管界面优化与仿生突触研究,2023/1-2025/12,30万,主持,在研。
科研成果
1.Xingjuan Song, Jingping Xu, Lu Liu, Pui-To Lai, and Wing-Man Tang. “Improved interfacial and electrical properties of few-layered MoS2 FETs with plasma-treated Al2O3 as gate dielectric”. Applied Surface Science, 481, PP. 1028-1034, 2019.
2.Xingjuan Song, Jingping Xu, Lu Liu, Yuheng Deng,Pui-To Lai, and Wing-Man Tang. Optimizing Al-doped ZrO2 as gate dielectric of MoS2 field-effect transistors. Nanotechnology, Vol 31, PP. 135206, 2020.
3.Xingjuan Song, Dongming Zhang. Bimetallic Ag-Ni/C particles as cathode catalyst in AFCs (alkaline fuel cells). Energy, Vol 70, pp. 223-230, 2014.
4. Xingjuan Song, Jingping Xu, Lu Liu*. High-quality CVD-MoS2 synthesized on Al2O3 for high-performance field-effect transistors through surface modification. IEEE Transactions on Electron Devices, 67(11): 5196-5200, 2020.
5. Xingjuan Song, Jingping Xu*, Lu Liu, Pui-To Lai and Wing-Man Tang.Comprehensive investigation on treating the interfaces of stacked gate dielectric in MoS2 transistors by fluorine plasma, Applied Surface Science, 542: 148437, 2021.
6.Jun Zhao, Dongming Zhang, Xingjuan Song. Simple and eco-friendly preparation of silver films coated on copper surface by replacement reaction. Applied Surface Science, 258(19):7430-7434, 2012.
7.Jing-Ping Xu , Wen-Xuan Xie, Lu Liu, Xinyuan Zhao, Xingjuan Song, Pui-To Lai,. Effects of trapped charges in gate dielectric and high- k encapsulation on performance of mos2 transistor. IEEE Transactions on Electron Devices, 66(2), 1107-1112, 2019.
8.Jingping Xu, Ming Wen, Xinyuan Zhao, Lu Liu, Xingjuan Song, Pui-To Lai and Wing-Man Tang Effects of HfO2 encapsulation on electrical performances of few-layered MoS2 transistor with ALD HfO2 as back-gate dielectric, Nanotechnology, 29(34), 2018.