Tong Chen*, Huili Li, Yuyuan Zhu, Desheng Liu, Guanghui Zhou and Liang Xu*. Carbon phosphide nanosheets and nanoribbons: Insights on modulating their electronic properties by first principles calculations. Physical Chemistry Chemical Physics. 22(2020) 22520.
[11] Qinghua Zhou, Huihui Xu, Lu lv, Wenhua Liu , Yan Liang, Huili Li*, Tong Chen*, Study on the decline mechanism of cathode material LiCoO2 for Li-ion battery. Vacuum 177(2020) 109313.
[12] Tong Chen*, Liang Xu, Quan Li, Xiaobo Li, Mengqiu Long. Direction and strain control anisotropic transport behaviors of 2D GeSe phosphorene vdW heterojunctions. Nanotechnology 30(2019) 445703.
[13] Tong Chen*, Liang Xu, Quan Li, Mengqiu Long. Modulation of Electronic Behaviors of InSe Nanosheet and Nanoribbons: The First-Principles Study. Adv. Theory Simul. (2019) 1900099.
[14] Chengkun Guo(本科生), Tong Chen*, Liang Xu, Quan Li, Zhonghui Xu, Mengqiu Long Modulation of electronic structure properties of C/B/Al-doped armchair GaN nanoribbons. Molecular Physics (2019) 1362-3028.
[15] Tong Chen*, Quan Li, Liang Xu*, Yao Zhang, Zhonghui Xu, Yingbin Zhang, Lingling Wang, Mengqiu Long, Characteristics of electronic and spin-independent linear conductance in conjugated aromatic polymer based molecular device. Organic Electronics, 65(2019) 49-55.
[16] Tong Chen*, Chengkun Guo, Quan Li, Liang Xu, Lingling Wang, Mengqiu Long and Cijun Shuai*, High-performance spin rectification in gallium nitride-based molecular junctions with asymmetric edge passivation. Journal of applied physics, 124(2018) 215102.
[17] Tong Chen*, Chengkun Guo, Liang Xu*, Quan Li, Kaiwu Luo, Desheng Liu, Lingling Wang and Mengqiu Long, Modulating the properties of multi-functional molecular devices consisting of zigzag gallium nitride nanoribbons by different magnetic orderings: a first-principles study. Physical Chemistry Chemical Physics, 20(2018) 5726.
[18] Tong Chen*, Shenlang Yan, Liang Xu, Desheng Liu, Quan Li, Lingling Wang and Mengqiu Long, Spin-filtering and giant magnetoresistance effects in polyacetylene-based molecular devices. Journal of Applied Physics, 122(2017) 035103.
[19] Tong Chen*, Huili Li, Yao Zhang, Desheng Liu, Yun Chao and Lingling Wang, Parity Effects Induced by the Resonant Electronic States Coupling in Polyacetylene-Based Devices. Journal of Electronic Materials, 46(2017) 1-6.
[20] Tong Chen, Lingling Wang*, XiangHua Zhang, Kaiwu Luo, Quan Li, Conductance gap induced by orbital symmetry mismatch in inhomogeneous hydrogen-terminated zigzag graphene nanoribbons. Organic Electronics, 26(2015) 181-185.
[21] Tong Chen, Lingling Wang*, Xiaofei Li*, Kaiwu Luo, Liang Xu, Quan Li, Xianghua Zhang and Mengqiu Long, Spin-dependent transport properties of a chromium porphyrin-based molecular embedded between two graphene nanoribbon electrodes. RSC Advances, 104(2014) 60376-60381.
[22] Tong Chen, Xiao-Fei Li*, LingLing Wang*, KaiWu Luo and Liang Xu, Rectification induced in N2AA-doped armchair graphene nanoribbon device. Journal of Applied Physics, 116(2014) 15259-15263.
[23] Tong Chen, Xiao-Fei Li*, LingLing Wang*, KaiWu Luo, Quan Li, Xianghua Zhang and Xiongjun Shang, Perfect spin filter and strong current polarization in carbon atomic chain with asymmetrical connecting points. Europhysics Letters, 105(2014) 57003.
[24] Tong Chen, Xiao-Fei Li*, LingLing Wang*, Quan Li, KaiWu Luo, Xianghua Zhang and Liang Xu, Semiconductor to metal transition by tuning the location of N2AA in armchair graphene nanoribbons. Journal of Applied Physics, 115(2014) 1920-13446.