1. Sanmei Wang, Yong Zhou, Hengxin Fang, Chunyang Nie, Chang Q Sun, Biao Wang.Constant-potential simulation of electrocatalytic N2 reduction over atomic metal-N-graphene catalysts. Chinese Chemical Letters. 36 (2025) 110611.
2. Sanmei Wang, Dengxin Yan, Wenhua Zhang, Liangbing Wang. Graphene-supported isolated platinum atoms and platinum dimers for CO2 hydrogenation: Catalytic activity and selectivity variations. Chinese Chemical Letters. 36 (2025) 110476.
3. Ruyi Cui, Yong Zhou, Xingyi Xu, Hengxin Fang, Wenlong Wang, Sanmei Wang*, Pengbo Lyu, Lizhong Sun, Biao Wang, Chang Q. Sun. Size effect on the Ru nanocatalyst forammonia borane dehydrogenation. International Journal of Hydrogen Energy 112 (2025) 72-80.
4. Sanmei Wang, Liangbing Wang, Wenhua Zhang. Constructing Imine Groups on the Surface of Cu1/Pd(111) as a Novel Strategy for CO2 Hydrogenation to Methanol, Nanoscale. 15 (2023) 6999-7005.
5. Sanmei Wang, Yue Xin, Jinyun Yuan, Liangbing Wang, Wenhua Zhang. Direct conversion of methane to methanol on boron nitride-supported copper single atoms, Nanoscale 14 (2022) 5447.
6. Sanmei Wang, Bo Yu, Liangbing Wang. A DFT Study of Boron Nitride-confined NickelSingle Atoms for the Oxidation of Methane to Methanol. Physical Chemistry Chemical Physics 24 (2022) 21886.
7. Sanmei Wang, Yue Xin, Wenhua Zhang, Liangbing Wang. Conversion of Methane to Methanol on Cobalt-Embedded Graphene: A Theoretical Perspective, Catalysis Letters 152 (2022) 1331-1337.
8. Yue Xin,# Sanmei Wang#(共同一作), Haibo Yuan, Tingting Hou, Wenkun Zhu, Yuexiao Liu,Yuan Yao, Wenhua Zhang, Shuquan Liang, and Liangbing Wang. Atomic-level insightsinto the activation of nitrogen via hydrogen-bond interaction toward nitrogen photofixation. Chem 7 (2021) 2118–2136.
9. Sanmei Wang, Xi Zhang, Yongli Huang, Chang Q. Sun. Arsenene nanoribbon edge-resolved strong magnetism. Physical Chemistry Chemical Physics 20 (2018) 25716– 25721.
10. Sanmei Wang, Xi Zhang, Yonghui Liu, Yongli Huang, and Chang Q. Sun. Antimonene nanoribbon band-gap expansion: Bond contraction and edge quantum entrapment, Materials Chemistry and Physics 211 (2018) 414.
