专业授课与教学成果    

主要承担《大学物理实验》、《大学物理》课程教学；

研究方向及研究团队    

主要从事凝聚态物理学科领域科研工作；

科研成果    

[1]Yang Zhixiong, Pan Jiangling, Cheng Xue, Xiong Xiang, Ouyang Fangping. A First-Principles Study on Transport Properties of Polyacene in Zigzag Graphene Nanoribbon: Configuration, Length and Doping Effects.Journal of Applied Physics, 2019, 126(10):104501.

[2]Yang Zhixiong, Pan Jianglin; Liu Qi, Wu Nannan, Hu Mengli, Ouyang Fangping. Electronic Structures and Transport Properties of a MoS2-NbS2Nanoribbon Lateral Heterostructure.Physical Chemistry Chemical Physics, 2017, 19(2): 1303-1310.

[3]Ouyang Fangping; Yang Zhixiong; Ni Xiang; Wu Nannan; Chen Yu; Xiong Xiang, Hydrogenation-induced edge magnetization in armchair MoS2nanoribbon and electric field effects.Applied Physics Letters2014, 104 (7)，071901.

[4]Ouyang Fangping; Yang Zhixiong; Peng Shenglin; Zheng Xiaojuan; Xiong Xiang, Antidot-dependent bandgap and Clar sextets in graphene antidot lattices.Physica E-Low-Dimensional Systems & Nanostructures2014, 56, 222-226.

[5]Zhixiong; Yang Jinxin; Liu Qi; Xie Yuxin.; Xiong Xiang; Ouyang Fangping, Electronic Structure and Edge Modification of Armchair MoS2 Nanoribbons.Acta Physico-Chimica Sinica2013, 29 (8), 1648-1654.

[6]Ouyang Fangping; Yang Zhixiong; Xiao Jin; Wu Di; Xu, Hui, Electronic Structure and Chemical Modification of Graphene Antidot Lattices.Journal of Physical Chemistry C2010, 114 (37), 15578-15583.

[7]Zhou Wenzhe, Yang Zhixiong, Li Aolin, Ouyang Fangping. Spin and Valley Splittings in Janus Monolayer WSSe on Mno(111) Surface: Large Effective Zeeman Field and Opening a Helical Gap.Physical Review B, 2019.

[8]Zhou, Wenzhe; Chen, Jiangyong; Yang, Zhixiong; Liu, Junwei; Ouyang, Fangping, Geometry and electronic structure of monolayer, bilayer, and multilayer Janus WSSe.Physical Review B2019, 99 (7), 075160.