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2025

225. C. Cai, T. Wang*, Resolving chemical-motif similarity with enhanced atomic structure representations for accurately predicting descriptors at metallic interfaces,Nature Communications 2025, 1610.1038/s41467-025-63860-x.


224. Q. Liu, W. Yang*, Resolving non-covalent interactions between surface hydroxyl on Cu and interfacial water in alkaline CO electroreduction,Nature Catalysis 2025, 8, 843–85210.1038/s41929-025-01396-5.


223. Q. Liu, J. Zang, W. Ye, L. Li, C. Wang, J. Jin, W. Yang*, Universal Formation, Dynamics, and Reactivities of *CObridge Accompanying Spontaneous Reconstruction of Cu during Electrochemical CO2 or CO Reduction,Journal of the American Chemical Society 2025, 147, 31497–3150810.1021/jacs.5c03886.


222. C. Han, Y. Liu, T. Wang*, Structure–Activity Relation of the Oxide Path Mechanism for O–O Coupling on Rutile-Based Oxygen Evolution Reaction Catalysts,ACS Energy Letters 2025, 10, 4511–451710.1021/acsenergylett.5c01739.


221. C. Han, Y. Liu, T. Wang, Potential-dependent O–O Coupling Mechanism for Oxygen Evolution Reaction on Ruthenium Dioxide,The Journal of Physical Chemistry Letters 2025, 16, 8986–899310.1021/acs.jpclett.5c02345.


220. Z. Wei, Y. Ding, W. Shi, F. Zhang, Y. Song, X. Cui, Y. Guo, L. Sun, Q. Jiang, B. Zhang*, Lanthanum-assisted lattice anchoring of iridium in Co3O4 for efficient oxygen evolution reaction in low-iridium water electrolysis,Nature Communications 2025, 1610.1038/s41467-025-63577-x.


219. B. Jia, Z. Chen, K. Zhu, W. Shi, Z. Hu, T. Wang, L. Sun, B. Zhang*, Gallium modulated tin oxide for continuous production of formic acid via durable acidic CO2 electroreduction,Science Advances 2025, 10.1126/sciadv.adw7326.


218. X. Cui, Y. Ding, F. Zhang, X. Cao, Y. Guo, L. Sun, B. Zhang*, Reserved charges in a long-lived NiOOH phase drive catalytic water oxidation,Nature Chemistry 2025, 10.1038/s41557-025-01942-5.


217. L. Li, W. Ye, Q. Liu, R. Liu, X. Lu, T. Yao, L. Wang, B. Gu, L. Sun, W. Yang*, Operando Raman characterization of unique electroinduced molecular tautomerization in zero-gap electrolyzers promotes CO2 reduction,Proceedings of the National Academy of Sciences 2025, 12210.1073/pnas.


216. J. Zang, W. Ye, Q. Liu, J. Meng, W. Yang*, Plasmonic-Promoted Formation of Surface Adsorbed Stochastic CO during Electrochemical CO2 and CO Reduction on Cu at Extreme Low Overpotentials,Journal of the American Chemical Society 2025, 147, 10260–1026710.1021/jacs.4c16579.


215. W. Zheng, R. Ren, L. Yin, T. Tang, G. Ding, H. Lee, L. Sun*, OH− conductivity enhancement of quinuclidinium-based anion exchange membrane by the introduction of dibenzothiophene,Journal of Membrane Science 2025, 73310.1016/j.memsci.2025.124300.


214. J. Du, Z. Li, L. Wang, Y. Ding, W. Ye, W. Yang, L. Sun*, Anion Exchange Membrane Seawater Electrolysis at 1.0 A cm−2 With an Anode Catalyst Stable for 9000 H,Advanced Science 2025, 1210.1002/advs.202416661.


213. G. Lin, A. Dong, Z. Li, W. Li, X. Cao, Y. Zhao, L. Wang, L. Sun*, An Interlayer Anchored NiMo/MoO2 Electrocatalyst for Hydrogen Evolution Reaction in Anion Exchange Membrane Water Electrolysis at High Current Density,Advanced Materials 2025, 3710.1002/adma.202507525.


212. A. Dong, G. Lin, Z. Li, W. Wu, X. Cao, W. Li, L. Wang, Y. Zhao, D. Chen, L. Sun, Interlayer-bonded Ni/MoO2 electrocatalyst for efficient hydrogen evolution reaction with stability over 6000 h at 1000 mA cm−2,Nature Communications 2025, 1610.1038/s41467-025-59933-6.


211. W. Li, Y. Ding, Y. Zhao, Z. Li, G. Lin, L. Wang, L. Sun*, Zwitterion‐Modified NiFe OER Catalyst Achieving Ultrastable Anion Exchange Membrane Water Electrolysis via Dynamic Alkaline Microenvironment Engineering,Angewandte Chemie International Edition 2025, 6410.1002/anie.202505924.


210. L. Yin, R. Ren, L. He, H. Lee, Q. Zhang, G. Ding, L. Wang, L. Sun*, Polyarylmethylpiperidinium (PAMP) for Next Generation Anion Exchange Membranes,Angewandte Chemie International Edition 2025, 6410.1002/anie.202503715.


209. Q. Zhang, L. Yin, R. Ren, L. He, L. Wang, L. Sun*, Pendant meta-Piperidinium-Based Anion Exchange Membranes with Enhanced Alkaline Stability for Water Electrolysis,ACS Energy Letters 2025, 10, 3735–374210.1021/acsenergylett.5c01703.


208. Q. Zhang, R. Ren, L. Yin, L. Sun*, Alkali‐Stable Cations and Anion Exchange Membranes,Chemistry – A European Journal 2025, 3110.1002/chem.202404264.


207. J. Li, X. Shi, F. Zhang, X. Lu, Y. Zhang, R. Liao*, B. Zhang*, Electrocatalytic Ammonia Oxidation by a Ruthenium Complex Bearing a 2,6-Pyridinedicarboxylate Ligand,JACS Au 2025, 5, 1812–182110.1021/jacsau.5c00054.


206. H. Xiong, J. Yang, J. Li, Y. Cai, F. Zhang, J.-Y. Chen*, R.-Z. Liao, L. Sun, B. Zhang*, Electrochemical Ammonia Oxidation Catalyzed by a Ruthenium Complex with a Dangling Sulfonate Group,ACS Catalysis 2025, 15, 8633–864210.1021/acscatal.5c01166.


205. X. Cui, T. Tang, F. Zhang, L. Sun*, B. Zhang*, New benchmark for pure nickel-based oxygen-evolution electrocatalyst: Tailored large NiMoO4·xH2O monocrystals for complete reconstruction,Applied Catalysis B: Environment and Energy 2025, 36610.1016/j.apcatb.2025.125024.


204. G. Xu, T. Wang*, Determining the Magnetic Status of Active Sites on Nanocatalysts,The Journal of Physical Chemistry Letters 2025, 16, 1447–145210.1021/acs.jpclett.5c00020.


203. Z. Chen, T. Wang*, Understanding the C–C coupling mechanism in electrochemical CO reduction at low CO coverage: Dynamic change in site preference matters,Chinese Journal of Catalysis 2025, 69, 193–20210.1016/s1872-2067(24)60180-4.


202. G. Xu, T. Wang*, Practical Applications of Grand-canonical Electronic Structure Calculations in Electrochemical Simulation,The Journal of Physical Chemistry Letters 2025, 16, 1470–147710.1021/acs.jpclett.4c03323.


201. C. Cai, H. Lee, W. Shi, Y. Liu, B. Zhang*, L. Sun, T. Wang*, Nickel–Antimony Electrocatalyst for Durable Acidic Hydrogen Evolution Reaction in Proton Exchange Membrane Electrolyzers,ACS Energy Letters 2025, 10, 1483–149010.1021/acsenergylett.5c00233.


200. Y. Song, W. Zhao, Z. Wang, W. Shi, F. Zhang, Z. Wei, X. Cui, Y. Zhu*, T. Wang*, L. Sun, B. Zhang*, Sub-4 nm Ru-RuO2 Schottky Nanojunction as a Catalyst for Durable Acidic Water Oxidation,Journal of the American Chemical Society 2025, 147, 13775–1378310.1021/jacs.5c01876.


199. L. Ma, T. Wang*, Effects of Hydration Level and Hydrogen Bonds on Hydroxide Transport Mechanisms in Anion Exchange Membranes,ChemSusChem 2025, 1810.1002/cssc.202402660.


198. K. Zhu, B. Jia, Z. Chen, Z. Hu, L. Sun, T. Wang*, B. Zhang*, Sn Catalysts with Build‐in [NCN]2− as Proton Relay for Industrial‐Grade CO2 Reduction at Low Overpotential,Angewandte Chemie International Edition 2025, 6410.1002/anie.202507422.


197. Y. Song, Z. Wei, W. Shi, B. Zhang*, Benchmarking commercial RuO2 for acidic water oxidation,Next Materials 2025, 610.1016/j.nxmate.2024.100289.