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[2] 孙源淼,单原子催化材料[M].科学出版社,2025.                                                                                                                                                                                                                                 

[1] Ma, H.; Sun, Y.* Electrocatalytic Reaction Mechanism for Energy Conversion. In Functional Materials for Electrocatalytic Energy Conversion; 2025; pp 33–50.


Journal Articles

[32] Xie, H.; Liu, L.; Chen, H.; Hui, K. S.*; Kuang, Z.; Zhou, G.; Sun, Y.; Cheng, H.-M.*; Hui, K. N.* Fast-Charging Phosphorus Anodes Enabled by Fluorinated Weakly Solvated Electrolytes for Stable and High-Rate Lithium Storage. Advanced Materials 2025, 2504248.

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[31] Ji, D.; Yang, Z.; Yao, Y.; Hou, Y.; He, Z.; Da, P.; Shen, W.; An, L.; Sun, Y.*; Xi, P.* ; Yan, C.-H. Rare-Earth Y–O Skeleton-Mediated Stabilization of Cu2+ for Efficient CO2 Electroreduction to CH4. Small 2025, 2503169.

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[30] Shi, J.; Cheng, Y.; Wang, T.*; Peng, Y.; Lin, X.; Tang, B.; Feng, M.; Zhuang, Z.*; Sun, Y.; Yu, X.; Xu, Z. J.* Site-Specific Spin State Modulation in Spinel Oxides for Enhanced Nonradical Oxidation. Angewandte Chemie International Edition 2025, e202504189.

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[29] Wang, X.; Chen, X.*; Lv, R.; Ma, H.; Yao, Y.; Jin, H.; Qiao, S.; Sun, Y.*; Liu, D.; Song, L.; Du, P.; Chen, W.*; Lu, Y.; Yang, S.* Modulating the Binding Strength of Multiple Intermediates by Few-Layer Fullerene Network Electron Buffer for Alkaline Hydrogen Evolution. Small 2025, 2506131.

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[28] Liu, P.; Ma, H.; Qin, Y.*; Li, J.; Li, F.; Ye, J.; Guo, Q.; Su, N.; Gao, C.; Xie, L.; Sheng, X.; Zhao, S.; Jiang, G.; Ren, Y.; Sun, Y.*; Zhang, Z.* Enhancing C–C Bond Cleavage of Glycerol Electrooxidation Through Spin-Selective Electron Donation in Pd–PdS2–Cox Heterostructural Nanosheets. Angewandte Chemie 2025, e202506032.

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[27] Chen, X.; Ma, H.; Wang, X.; Jin, H.*; Wu, Y.; Wang, S.; Xiao, Y.; Jiang, R.; Da, Y.; Fan, L.; Sun, Y.*; Xi, S.; Lum, Y.; He, Q.; Li, H.; Liu, D.; Yang, S.*; Chen, W.* Breaking the Scaling Relationship in Water Oxidation Enabled by the Electron Buffering Effect of the Fullerene Network. Journal of the American Chemical Society 2025, 147 (24), 20600-20611. 

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[26] Ye, X.; Yuan, W.; Fu, P.; Yang, X.; Chu, X.; Bai, Y.; Sun, Y.*; Cheng, H.-M.* A Full-process Artificial Intelligence Framework for Perovskite Solar Cells. Science China Materials 2025, DOI: 10.1007/s40843-025-3416-3.

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[25] Ma, H.; Ye, X.; Li, X.; Xu, Z. J.*; Sun, Y.* Ferroelectric Polarization Effects of Single-Atom Catalysts on Water Oxidation. Advanced Materials 2025, 2500285. 

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[24] Hu, Y.; Min, Z.; Zhu, G.; Zhang, Y.; Pei, Y.; Chen, C.; Sun, Y.*; Liang, G.*; Cheng, H.-M. Predeposited Lead Nucleation Sites Enable a Highly Reversible Zinc Electrode for Stable Zinc-Bromine Flow Batteries. Nature Communications 2025, 16 (1), 3255.

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[23] Xi, Z.; Hu, H.; Chen, Q.; Ning, M.; Wang, S.; Yu, H.; Sun, Y.; Wang, D.-W.;Jin, H.*; Cheng, H.-M.* 2D Catalysts for Electrocatalytic Nitrate Reduction and C–N Coupling Reactions. Advanced Functional Materials 2025, 2425611. 

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[22] Zeng, M.; Yan, Z.; Ye, X.; Lou, Y.; Sheng, T.; Jiang, X.; Mao, Y.; Huang, A.; Yang, X.; Wang, Z.; Sun, Y.; Bai, Y.*; Cheng, H.-M.*; Xing, G.* Tailored Supramolecular Interface Enables Efficient and Stable Tin Halide Perovskite Photovoltaics. ACS Energy Letters 2025, 10 (3), 1357–1365.

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[21] Song, Y.; Lu, B..; Min, Z.; Qu, H.; Liu, Y.; Mao, R.; Chen, Y.; Sun, Y.*; Zhou, G.* Interface Engineering Toward Surface-Activated Catalysts for Advanced Li–CO2 Batteries. Carbon Energy 2025, e692.

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[20] Chen, Z.-J.; Shao, Q.; Wu, J.; Zheng, J.; Bao, S.; Zhang, L.; Zhang, T.; Lan, X.; Sun, Y.; Wang, D.; Peng, J.*; Cheng, H.-M.* Exploiting Antisite Defects in FeWN2 Nanosheets for Enol Electro-Oxidation Coupled with H2 Evolution at a Large Current Density. Angewandte Chemie International Edition 2025, e202500678. 

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[19] Chen, T.; Min, Z.; Yu, Z.; Zheng, M.; Jiang, Q.; Xu, H.; Sun, Y.; Hui, K. S.*; Zha, C.*; Lu, J.*; Hui, K. N.* Molecular Clip Strategy of Modified Sulfur Cathodes for High-Performance Potassium Sulfur Batteries. Advanced Science 2025, 12 (9), 2405457.

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[18] Qiang, X.; Yao, Y.; Yin, J.; Da, P.; Mu, Z.; Shen, K.; Sun, Y.*; Zhang, Y.; Li, P.; Li, Z.; Xi, P.*; Yan, C.-H. Activating La−O−Ni Bridge in Ordered Macroporous Interface for Electrochemical Urea Wastewater Purification. Angewandte Chemie International Edition 2025, e202424014. 

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[17] Li, J.; Zhang, Y.; Zhang, L.; Zhou, Q.; Yang, J.; Fu, Y.; Yu, L.; Sun, Y.; Li, Z.; Qin, Y.; Yi, D.; Zhang, H.*; Wang, D.; Zhang, Z.* Facilitating OH* Generation on Atomic Pd–Cu Dual Sites towards Efficient Glycerol Electrooxidation to Formate. Angewandte Chemie International Edition 2025, e202425006. 

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[16] Shen, Z.; Song, P.; Xie, W.; Tannesia, L.; Tang, K.; Sun, Y.; Xi, S.; Xu, Z. J.* Valence Electron: A Descriptor of Spinel Sulfides for Sulfur Reduction Catalysis. Advanced Materials 2025, 37 (8), 2418090.

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[15] Shi, Y.; Li, J.; Min, Z.; Wang, X.; Hou, M.; Ma, H.; Zhuang, Z.; Qin, Y.; Sun, Y.*; Wang, D.; Zhang, Z.* Adjusting *CO Adsorption Configuration over Tandem Trimetallic AuAgCu Heterojunction Boosts CO2 Electroreduction to Ethanol via Asymmetric CC Coupling. Science China Materials 2025, 68 (1), 173–179.

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[14] Chen, Q.; Xi, Z.; Xu, Z.; Ning, M.; Yu, H.; Sun, Y.; Wang, D.-W.; Alnaser, A. S.; Jin, H.*; Cheng, H.-M.* Rapid Synthesis of Metastable Materials for Electrocatalysis. Chemical Society Reviews 2025, 54, 4567-4616.

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[13] Liu, L.; Xie, H.; Zheng, Y.; Hui, K. S.*; Sun, Y.; Cheng, H.-M.*; Hui, K. N.* Multicomponent Anodes Based on Amorphous ZnP2 for Fast-Charging/Discharging Lithium-Ion Batteries. Advanced Energy Materials 2024, 2404900. 

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[12] Ning, M.; Wang, S.; Wan, J.; Xi, Z.; Chen, Q.; Sun, Y.; Li, H.; Ma, T.*; Jin, H.* Dynamic Active Sites in Electrocatalysis. Angewandte Chemie International Edition 2024, 63 (50), e202415794.

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[11] An, L.; Li, J.; Sun, Y.; Zhu, J.; Seow, J. Z. Y.; Zhang, H.; Zhang, N.; Xi, P.*; Xu, Z. J.*; Yan, C.-H.* Deciphering Water Oxidation Catalysts: The Dominant Role of Surface Chemistry over Reconstruction Degree in Activity Promotion. Nano-Micro Letters 2024, 17 (1), 70.

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[10] Luo, N.; Ma, H.; Zhang, T.; Wu, J.; Chen, Z.-J.; Xu, M.; Sun, Y.; Peng, J.* Non-van Der Waals MCrS2 Nanosheets with Tunable Two-Dimensional Ferromagnetism. 2D Materials 2024, 11 (4), 045015.

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[9] Chen, Z.; Li, X.; Ma, H.; Zhang, Y.; Peng, J.*; Ma, T.; Cheng, Z.; Gracia, J.; Sun, Y.*; Xu, Z. J.* Spin-Dependent Electrocatalysis. National Science Review 2024, 11 (9), nwae314.

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[8] Wang, J.; Sun, S.; Xi, S.; Sun, Y.; Ong, S. J. H.; Seh, Z. W.; Xu, Z. J.* High-Entropy Spinel Oxides for Water Oxidation: Surface Entropy Evolution and Activity Promotion. The Journal of Physical Chemistry C 2024, 128 (12), 4978–4987.

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[7] Lu, B.; Min, Z.; Xiao, X.; Wang, B.; Chen, B.; Lu, G.; Liu, Y.; Mao, R.; Song, Y.; Zeng, X.-X.; Sun, Y.*; Yang, J.*; Zhou, G.* Recycled Tandem Catalysts Promising Ultralow Overpotential LiCO2 Batteries. Advanced Materials 2024, 36 (1), 2309264.

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[6] Ye, X.; Sun, Y.*; Liu, A.*; Wen, S.; Ma, T.* Insights into the Photocatalytic Mechanism of g-C3N4/Cs2BBr6 (B = Pt, Sn, Ti) Heterojunction Photocatalysts by Density Functional Theory Calculations. Catalysis Science & Technology 2024, 14 (20), 6027–6040.

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[5] He, N.; Sun, Y.; Chen, X.; Wang, J.; Liang, G.*; Mo, F.* Design of S, N-Codoped Co–Fe Dual-Atom Sites for Efficient Alkaline Oxygen Reduction. Journal of Materials Chemistry A 2024, 12 (17), 10101–10109.

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[4] Meng, F.; Wu, Q.; Elouarzaki, K.; Luo, S.; Sun, Y.; Dai, C.; Xi, S.; Chen, Y.; Lin, X.; Fang, M.; Wang, X.; Mandler, D.*; Xu, Z. J.* Essential Role of Lattice Oxygen in Methanol Electrochemical Refinery toward Formate. Science Advances 9 (34), eadh9487.

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[3] Zhang, T.; Gao, N.; Chen, Z.-J.; Zhao, H.-F.; Wang, Y.-S.; Yao, J.-Q.; Peng, J.; Sun, Y.; Yu, H.-B.*; Liu, X.-W.* Grain-Boundary-Activity Correlation for Electrocatalytic Oxygen Evolution in High-Entropy Alloys. PRX Energy 2023, 2 (3), 033011.

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[2] Chen, Z.-J.; Dong, J.; Wu, J.; Shao, Q.; Luo, N.; Xu, M.; Sun, Y.; Tang, Y.; Peng, J.*; Cheng, H.-M.* Acidic Enol Electrooxidation-Coupled Hydrogen Production with Ampere-Level Current Density. Nature Communications 2023, 14 (1), 4210.

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[1] Hu, T.; Hou, H.; Peng, J.; Wu, Q.; He, J.;Yu, H.*; Liu, R.; Hou, T.; Zhou, X.; Zhang, M.; Zhang, X.; Yang, X.; Sun, Y.; Li, X.; Bai, Y.* 4-Tert-Butylpyridine Induced Ni3+/Ni2+ Ratio Modulation in NiOx Hole Transport Layer towards Efficient and Stable Inverted Perovskite Solar Cells. Materials Today Energy 2023, 32, 101245.

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Before SIAT

[10] Sun, Y.; Ren, X.; Sun, S.*; Liu, Z.; Xi, S.; Xu, Z. J.* Engineering High-Spin State Cobalt Cations in Spinel Zinc Cobalt Oxide for Spin Channel Propagation and Active Site Enhancement in Water Oxidation. Angewandte Chemie International Edition 2021, 60 (26), 14536-1454.

[9] Sun, Y.; Chen, G.; Xi, S.; Xu, Z. J.* Catalytically Influential Features in Transition Metal Oxides. ACS Catalysis 2021, 11 (22), 13947-13954.

[8] Sun, Y.; Liao, H; Wang, J.; Chen, B.; Sun, S.; Ong, S. J. H.; Xi, S.; Diao, C.; Du, Y.; Wang, J.-O.; Breese, M. B. H.; Li, S.; Zhang, H.; Xu, Z. J.* Covalency competition dominates the water oxidation structure–activity relationship on spinel oxides. Nature Catalysis 2020, 3 (7), 554-563.

[7] Sun, Y.; Wang, J.; Xi, S.; Shen, J.; Luo, S.; Ge, J.; Sun, S.; Chen, Y.; Hanna, J. V.; Li, S.; Wang, X.; Xu, Z. J.* Navigating surface reconstruction of spinel oxides for electrochemical water oxidation. Nature Communications 2023, 14 (1), 2467.

[6] Sun, Y.; Sun, S.; Yang, H.; Xi, S.*; Gracia, J.*; Xu, Z. J.* Spin-Related Electron Transfer and Orbital Interactions in Oxygen Electrocatalysis. Advanced Materials 2020, 32 (39), e2003297.

[5] Wei, C.; Sun, Y.; Scherer, G. G.; Fisher, A. C.; Sherburne, M.; Ager, J. W.; Xu, Z. J.* Surface Composition Dependent Ligand Effect in Tuning the Activity of Nickel-Copper Bimetallic Electrocatalysts toward Hydrogen Evolution in Alkaline. Journal of the American Chemical Society 2020, 142 (17), 7765-7775.

[4] Chen, R. R.; Sun, Y.; Ong, S. J. H.; Xi, S.; Du, Y.; Liu, C.; Lev, O.; Xu, Z. J.* Antiferromagnetic Inverse Spinel Oxide LiCoVO4 with Spin-Polarized Channels for Water Oxidation. Advanced Materials 2020, 32 (10), e1907976.

[3] Sun, S.; Sun, Y.; Zhou, Y.; Xi, S.; Ren, X.; Huang, B.; Liao, H.; Wang, L. P.; Du, Y.; Xu, Z. J.* Shifting Oxygen Charge Towards Octahedral Metal: A Way to Promote Water Oxidation on Cobalt Spinel Oxides.  Angewandte Chemie International Edition 2019,58(18), 6042-6047.

[2] Chen, Y.; Sun, Y.; Wang, M.; Wang, J.; Li, H.; Xi, S.; Wei, C.; Xi, P.; Sterbinsky, G. E.; Freeland, J. W.; Fisher, A. C.; Ager III, J. W.; Feng, Z.*; Xu, Z. J.* Lattice Site–dependent Metal Leaching in Perovskites toward a Honeycomb-like Water Oxidation Catalyst. Science Advances 2021, 7, eabk1788.

[1] Wu, T.; Sun, Y.; Ren, X.; Wang, J.; Song, J.; Pan, Y.; Mu, Y.; Zhang, J.; Cheng, Q.; Xian, G.; Xi, S.; Shen, C.; Gao, H. J.; Fisher, A. C.; Sherburne, M. P.; Du, Y.; Ager, J. W.; Gracia, J.; Yang, H.; Zeng, L.*; Xu, Z. J.* Reconstruction of Thiospinel to Active Sites and Spin Channels for Water Oxidation. Advanced Materials 2023, 35 (2), e2207041.