代表性论文
1. Gao J, Pan Y*, Jain IP, Yang F, Zhu J, Exploring the structure, hydrogen storage capacity and hydrogen storage mechanism of X3N3H6 hydrides for hydrogen storage. Applied Materials Today 2025;44: 102755.
2. Yang F, Pan Y*, Zhu J, Enhanced catalytic activity of noble metal@borophene/WS2 heterojunction for hydrogen evolution reaction. Applied Surface Science 2025;680: 161321.
3. Pan Y*, Gao J, Exploring the hydrogen storage capacity, dehydrogenated mechanism, electronic and optical properties of AMMgH3 hydrides for hydrogen storage. Journal of Energy Storage 2025;124: 116869.
4. Zhu J, Pan Y*, Wen M, Yang F, Enhancing the electronic and optical properties of β-Ga2O3: effects of B-, N-, and B-N doping. Journal Of Alloys and Compounds 2025;1011: 178426.
5.Zhu Y, Pan Y*, Yang F, Zhu J, Investigation of structure, dehydrogenated behavior, mechanical and physical properties of LiAlH4 hydrogen storage material. International Journal Of Hydrogen Energy 2025;136: 11-20.
6. Pan Y*, Prediction of the Structural, Mechanical, and Physical Properties of GaC: As a Potential Third-Generation Semiconductor Material. Inorganic Chemistry 2024;63: 8264-8272.
7.Yu E, Pan Y*, Enhancing the catalytic hydrogen evolution reaction (HER) of the defective borophene@Pt/Pd/MoS2 heterojunction. International Journal Of Hydrogen Energy 2024;50: 920-931.
8.Yu E, Pan Y*, Catalytic properties of borophene/MoS2 heterojunctions for hydrogen evolution reaction under different stacking conditions. Journal Of Materials Chemistry A 2022;10: 24866-24876.
9.Yu E, Pan Y*, Exploring the hydrogen evolution catalytic activity of the orthorhombic and hexagonal borophene as the hydrogen storage material. Electrochimica Acta 2022;435: 141391.
10.Chen S, Pan Y*, Enhancing catalytic properties of noble metal@MoS2/WS2 heterojunction for the hydrogen evolution reaction. Applied Surface Science 2022;591: 153168. |