ORCID:0000-0002-7957-9101
1.Constructing FeN4/graphitic nitrogen atomic interface for high-efficiency electrochemical CO2 reduction over a broad potential window.Chuhao Liu,Yue Wu, Kaian Sunet. al.Chem, 2021, 7(5): 1297-1307.
2.Synergetic effect of nitrogen-doped carbon catalysts for high-efficiency electrochemical CO2reduction.Chuhao Liu,Yue Wu, Jingjie Fanet. al.Chin. J. of Catal., 2022, 43, 1697-1702.
3.Electron induction of atomically dispersed Fe sites by adjacent Te atoms promotes CO2 activation in electroreduction. YuanPan,ChuhaoLiu,NannanZhang,et. al.Chem Catal.,2023, 3, 100610.
4.Effect of Selective Metallic Defects on Catalytic Performance of Alloy Nanosheets. Azhar Mahmood, Dequan He andChuhao liuet. al.Small Method.2023, 2301490
5.Local-Elemental-Configuration Evoked Strain Steers CO2 Absorption Geometry.Chuhao Liu,Yifei Xu, Yifan Bu.et. al.NationalScience Review11: nwae191, 2024.
6.Unveiling the Growth Mechanism of Ordered-Phase withinMultimetallic Nanoplates. Azhar Mahmood, Dequan He andChuhao liuet. al.Adv. Sci. 2024, 2309163.
7.Electronic-Structure Transformation of Platinum-Rich Nanowires as Efficient Electrocatalyst for Overall Water Splitting. Bolin Zhao,Chuhao Liuand Azhar Mahmood et al.ACS Appl. Mater. Interfaces2024, 16, 37829−37839
8.Amorphization Induces High-Density Undercoordinated IndiumSites for Enhanced Electrocatalytic Urea Synthesis.Chuhao Liu,Tongtong Yang, Shiyun Li,et. al.ACS Catal.2025, 15, 8489−8496
9.Boosting small-molecule reduction withbismuth-based nanostructured reactors. Yue Wu, Bozhao Zhang, Yuan Yu,…,Chuhao Liu*,Chen Chen*.Chem. Commun., 2025, 61, 10800–10803
10.Magnetic field controlled electrocatalysis from a multidimensional catalytic perspective: mechanisms, applications, and prospects for energy conversion. Shanru Feng, Ling Wen, Li Zhang,…, Jiabin Chen*, Youcai Han*,Chuhao Liu*,Yu-Wu Zhong and Jiannian Yao*.Chinese Journal of Structural Chemistry,2025, accepted.
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