近期代表性论文（* Corresponding author, + Co-first author, #本科生）

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8. Ultrafast Plasma-Assisted Synthesis of Bio-Inspired Bi-Functional Interlayer on Zinc Anode with Enhanced Lewis-Base Sites for Long-Life Zinc-Iodine Batteries, Miaomiao Zhang+, Yitong Zhou+, Ke Fan,* Hongyu Wei, Yi Feng,* Chii-Ming Wu and Xin-Yao Yu*, Advanced Functional Materials, 2025, 35, 2502870. 【气液两相DBD等离子体快速合成锌保护涂层】

7. Synergistic Hydrogen Microenvironment Modulation Enabling Superior Hydrogen Evolution Reaction Activity in Neutral Media, Yanqiu Yang+, Ping Yan+, Yitong Zhou,* Qifeng Xiao, Huabin Zhang,* and Xin-Yao Yu*, Small, 2025, 21, e08944. 【氢气等离子体还原耦合钨酸根插层提升NiFe LDH的中性HER性能】

6. Phase Engineering of Nickel Phosphides for Simultaneous Enhancement of Activity, Selectivity, and Stability Toward Electrocatalytic Ammonia Synthesis, Qi Cao, Weidong Wen,* Wanping Sun, Yitong Zhou,* and Xin-Yao Yu*, Small, 2025, 21, e08642.【晶相工程化磷化镍+空气等离子体放电耦合电催化合成氨】

5. Enhanced Activity and Stability for Electrocatalytic Nitrate Reduction to Ammonia over Low-Coordinated Cobalt, Wanping Sun+, Ying Xu+, Li Yang,* Weidong Wen, Huabin Zhang,* and Xin-Yao Yu*, Small, 2025, 21, 2411215. 【氢气等离子体刻蚀改性制备低配位数Co电催化剂】

4. Oxygen plasma-engineered ZnF₂ with built-in electric field enables rapid Zn²⁺ transport for robust Zn metal batteries, Songting Shan, Miaomiao Zhang,* Yanan Guo, Ke Fan,* and Xin-Yao Yu*, Applied Physics Letters, 2025, 127, 223904. 【氧气等离子体工程化氟化锌涂层，构建内建电场，加速锌离子传输】

3. Plasma etching enabling the fast reconstruction of precatalysts into defective metal oxyhydroxides with high spin state and activated lattice oxygen for efficient oxygen evolution, Jing Xie+, Jingyi Shi+, Ying Xu+, Shoujie Liu,* Luchun Qiu, Li Yang,* Ping Yan and Xin-Yao Yu*, Applied Physics Letters, 2025, 127, 133903. 【氩气等离子体刻蚀促进NiFe-Ni PBA的深度重构】

2. A review on the application of low-temperature plasma in the modification of key materials for aqueous zinc-ion batteries, Qi Qi+, Yanan Guo+, Chenpei Huang, Chenyu Fan, Jingjing Xu and Xin-Yao Yu*, Clean Energy Science and Technology, 2025, 3(2), 365. 【约稿文章，综述了低温等离子体在改性锌离子电池关键材料中的应用】

1. Phase Engineering of ZnSe by Small Molecules as a High‐Performance Protective Layer for Zn Anode, Yanan Guo+, Miaomiao Zhang+, Ping Yan, Longtai Jiang, Anqi Dong* and Xin-Yao Yu*, ChemSusChem, 2025, 18, e202401287. 

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4. Modulating the Electrolyte Microenvironment in Electrical Double Layer for Boosting Electrocatalytic Nitrate Reduction to Ammonia, Weidong Wen+, Shidong Fang+, Yitong Zhou*, Ying Zhao, Peng Li* and Xin-Yao Yu*, Angewandte Chemie International Edition, 2024, 63, e202408382. (Inside Front Cover)

3. Rational design of heterostructured Ru cluster-based catalyst for pH universal hydrogen evolution reaction and high-performance Zn-H2O battery, Ranran Tang+, Yu Yang+#, Yitong Zhou* and Xin-Yao Yu*, Advanced Functional Materials, 2024, 34, 2301925.

2. A multi-functional protective material with atomically dispersed zincophilic sites enabling long-life zinc anodes, Miaomiao Zhang+, Hongyu Wei+#, Yitong Zhou*, Weidong Wen, Lin Zhang* and Xin-Yao Yu*, Chemical Science, 2024, 15, 18187.

1. Sulfur-regulated metal–support interaction boosting the hydrogen evolution performance of Ru clusters in seawater at industrial current densities, Ranran Tang+, Ping Yan+, Yitong Zhou* and Xin-Yao Yu*, EES Catalysis, 2024, 2, 932. 【约稿文章】

---------------------------------------- [2023] --------------------------------------

9. “One stone five birds” plasma activation strategy synergistic with Ru single atoms doping boosting the hydrogen evolution performance of metal hydroxide, Ping Yan+, Tao Yang+, Minxi Lin, Yanan Guo, Zipeng Qi#, Qiquan Luo* and Xin-Yao Yu*, Advanced Functional Materials, 2023, 33, 2301343. 【氢气等离子体活化协同Ru单原子掺杂提升氢氧化镍的碱性HER活性】

8. Metastable phase Cu with optimized local electronic state for efficient electrocatalytic production of ammonia from nitrate, Weidong Wen+, Ping Yan+, Wanping Sun, Yitong Zhou* and Xin-Yao Yu*, Advanced Functional Materials, 2023, 33, 2212236. 【氧气等离子体氧化结合后续电还原制备亚稳相铜催化剂】

7. Dynamic reconstructed RuO2/NiFeOOH with coherent interface for efficient seawater oxidation, Guanru Chang+, Yitong Zhou+, Jianghao Wang+, Hui Zhang*, Ping Yan, Hao Bin Wu* and Xin-Yao Yu*, Small, 2023, 19, 2206768.

6. “One stone three birds” plasma engraving strategy to boost the hydrogen evolution reaction activity of layered double hydroxides, Yanqiu Yang+, Zhengzhao Wang+#, Ping Yan* and Xin-Yao Yu*, Applied Physics Letters, 2023, 123, 033903. 【氢气等离子体还原提升NiFe LDH的碱性HER活性】

5. Plasma-induced implanting of active species in metal–organic frameworks for efficient hydrogen evolution reaction, Qi Qi₊, Duo Shao₊, Yitong Zhou, Qi Wang* and Xin-Yao Yu*, Journal of Materials Chemistry A, 2023, 11, 15663. 【氢气等离子体还原协同POM植入提升MOF的碱性HER活性】

4. Porous RuO₂-Co₃O₄/C nanocubes as high-performance trifunctional electrocatalysts for zinc–air batteries and overall water splitting, Jingyi Shi, Niannian Wang, Wenhao Du, Yi Feng* and Xin-Yao Yu*, Materials Chemistry Frontiers, 2023, 7, 3774. 【约稿文章】

3. In situ reconstructed AgZn₃ nanoparticles supported on zinc nanoplates for efficient CO₂ electroreduction to tunable syngas, Yanrui Xu, Wangjian Liu, Zihang Xu, Yitong Zhou* and Xin-Yao Yu*, Chemical Communications, 2023, 59, 8596. 【等离子体共溅射制备AgZn₃合金电催化剂】

2. 3D Self-Supported Catalyst with Multiple Active Components for Efficient Neutral Hydrogen Evolution Reaction, Yonghui Guan, Ling Dong, Ping Yan* and Xin-Yao Yu*, ChemCatChem, 2023, 15, e202300845. 【氢气等离子体活化构建三维多催化位点催化剂提升中性HER活性】

1. N₂等离子体活化增强镍铁-甘油酸微球的析氧性能，史静怡，严萍*，遇鑫遥*，石油学报(石油加工)，2023，39，1194-1204. 【约稿文章，氮气等离子体活化提升镍铁甘油酸微球的碱性OER活性】

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7. Low-Coordinated Cobalt Arrays for Efficient Hydrazine Electrooxidation, Qian Liu, Xiaobin Liao, Yuanhao Tang, Jianghao Wang, Xiangzhou Lv, Xuelei Pan, Ruihu Lu, Yan Zhao*, Junxiang Jiang, Xin-Yao Yu* and Hao Bin Wu*, Energy & Environmental Science, 2022, 15, 3246. 【氢气等离子体还原制备低配位数Co电催化剂】

6. Synergistic Electronic and Pore Structure Modulation in Open Carbon Nanocages Enabling Efficient Electrocatalytic Production of H2O2 in Acidic Medium, Yan Wang, Yitong Zhou, Yi Feng* and Xin-Yao Yu*, Advanced Functional Materials, 2022, 32, 2110734.

5. Oxygen Vacancy Engineering Synergistic with Surface Hydrophilicity Modification of Hollow Ru Doped CoNi-LDH Nanotube Arrays for Boosting Hydrogen Evolution, Qianqian Li, Fangzhi Huang, Hui Zhang* and Xin-Yao Yu*, Small, 2022, 18, 2104323. 【空气等离子体活化协同Ru掺杂提升LDH的碱性HER活性】

4. Chemical–physical synergistic etching enabling deep reconstruction of NiFe Prussian blue analogue for efficient oxygen evolution reaction and Zn–air batteries, Luchun Qiu+, Qi Wang+, Ping Yan* and Xin-Yao Yu*, Journal of Materials Chemistry A, 2022, 10, 21251. 【氮气等离子体刻蚀协同化学刻蚀促进NiFe PBA的深度重构】

3. Phase-engineering of nickel hydroxide in the Ni/Ni(OH)₂ interface for efficient hydrogen evolution and hydrazine-assisted water splitting in seawater, Duo Shao+, Qi Wang+, Xianzhi Yao, Yitong Zhou* and Xin-Yao Yu*, Journal of Materials Chemistry A, 2022, 10, 21848. 【氢气等离子体还原协同晶相调控提升氢氧化镍的碱性HER活性】

2. 2D metal–organic frameworks and their derivatives for the oxygen evolution reaction, Guanru Chang, Hui Zhang* and Xin-Yao Yu*, Journal of Alloys and Compounds, 2022, 919, 165823. 【约稿文章】

1. Regulating Ni site in NiV LDH for efficient electrocatalytic production of formate and hydrogen by glycerol electrolysis, Lin Dong+, Guanru Chang+, Yi Feng*, Xianzhi Yao and Xin-Yao Yu*, Rare Metals, 2022, 41, 1583. 【氮气/氢气等离子体活化提升NiV LDH的碱性HER活性】

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7. Deeply reconstructed hierarchical and defective NiOOH/FeOOH nanoboxes with accelerated kinetics for the oxygen evolution reaction, Ping Yan+, Qian Liu+, Hui Zhang*, Luchun Qiu, Hao Bin Wu* and Xin-Yao Yu*, Journal of Materials Chemistry A, 2021, 9, 15586. (Front Cover, ESI Highly Cited Paper) 

6. In-situ formation of ligand-stabilized bismuth nanosheets for efficient CO₂ conversion, Nanhui Li, Ping Yan, Yuanhao Tang, Jianghao Wang, Xin-Yao Yu*, Hao Bin Wu*, Applied Catalysis B: Environmental, 2021, 297, 120481.  

5. Tungstate-modulated Ni/Ni(OH)₂ interface for efficien hydrogen evolution reaction in neutral media, Yuanhao Tang⁺, Lin Dong⁺, Hao Bin Wu* and Xin-Yao Yu*, Journal of Materials Chemistry A, 2021, 9, 1456. (Back Cover) 【氢气等离子体还原协同钨酸根插层提升氢氧化镍的中性HER活性】

4. Synergetic electronic modulation and nanostructure engineering of heterostructured RuO₂/Co₃O₄ as advanced bifunctional electrocatalyst for zinc–air batteries, Xiaojie Zhuang, Yitong Zhou, Zhongqing Jiang*, Xin-Yao Yu*, Journal of Materials Chemistry A, 2021, 9, 26669. 

3. Copper and carbon-incorporated yolk-shelled FeP spheres with enhanced sodium storage properties, Jia Li, Qian Liu, Yongxing Zhang*, Junxiang Jiang, Hao Bin Wu* and Xin-Yao Yu*, Chemical Engineering Journal, 2021, 421, 127776. 

2. Accelerating the oxygen evolution reaction kinetics of Co₃O₄ in neutral electrolyte by decorating RuO₂, Kaifa Lu, Guanru Chang, Hui Zhang*, Xin-Yao Yu*, Chemical Communications, 2021, 57, 2907-2910. 

1. Plasma activation towards oxidized nanocarbons for efficient electrochemical synthesis of hydrogen peroxide, Wei Cai⁺, Yan Wang⁺, Changshan Xiao^#, Hao Bin Wu* and Xin-Yao Yu*, Plasma Science and Technology, 2021, 23, 025502. 【氧气等离子体氧化碳纳米管提升电合成过氧化氢性能】

---------------------------------------- [2020] --------------------------------------

4. Activating the hydrogen evolution and overall water splitting performance of NiFe LDH by cation doping and plasma reduction, Yuanhao Tang⁺, Qian Liu⁺, Lin Dong, Hao Bin Wu* and Xin-Yao Yu*, Applied Catalysis B: Environmental, 2020, 266, 118627. (ESI Highly Cited Paper) 【氢气等离子体还原协同阳离子掺杂提升LDH的碱性HER活性】

3. Activating the alkaline hydrogen evolution performance of Mo-incorporated Ni(OH)₂ by plasma-induced heterostructure, Wenhao Zhang⁺, Yuanhao Tang⁺, Liangmin Yu* and Xin-Yao Yu*, Applied Catalysis B: Environmental, 2020, 266, 118154. 【氮气/氢气等离子体活化协同钨酸根插层提升氢氧化镍的碱性HER活性】

2. N₂ plasma-activated NiO nanosheet arrays with enhanced water splitting performance, K Naga Sathya Sai, Yuanhao Tang, Lin Dong, Xin-Yao Yu* and Zhanglian Hong*, Nanotechnology, 2020, 31, 455709. 【氮气等离子体活化提升氧化镍的碱性电解水活性】

1. Plasma-reduced Co(OH)₂ with activated hydrogen evolution and overall water splitting performance, Junxiang Jiang, Yuanhao Tang, Lin Dong, Wenhao Zhang* and Xin-Yao Yu*, Sustainable Energy & Fuels, 2020, 4, 2645-2649. 【氢气等离子体还原提升氢氧化钴的碱性HER活性】