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张政，副教授，硕士生导师，湖北省楚天学者，湖北省青年科技人才，武汉英才优秀青年人才。2020年博士毕业于厦门大学（中国科学院大连化学物理研究所联合培养）物理化学专业，师从邓德会研究员；2020-2021年于赛格德大学从事博士后研究，合作导师Csaba Janáky教授；2022年入职武汉纺织大学。主要从事能源电化学与催化化学等方向的研究工作，主持国家自然科学基金青年项目、国家留学基金委资助赴新加坡国立大学访学项目、湖北省青年科技人才培养专项、国家重点实验室开放基金、湖北省自然科学基金青年项目等课题。作为通讯作者或第一作者在Angew. Chem. Int. Ed.、Adv. Funct. Mater.、SusMat、Carbon Energy、Cell Rep. Phys. Sci.、Nano Res.等学术期刊发表论文十余篇，发表论文被Nature、Nat. Energy、Nat. Catal.、Nat. Chem.、Nat. Synth.、Nat. Sustain.、Nat. Rev. Chem.、Nat. Rev. Mater.、Nat. Rev. Clean Technol.等期刊引用1500余次，受邀担任Adv. Mater.、ACS Energy Lett.、Adv. Sci.、Nano-Micro Lett.、Environ. Sci. Technol.、J. Colloid Interf. Sci.、ChemElectroChem等期刊审稿人。

研究方向Research Directions

能源电化学, 催化化学

2. 机电结构优化与控制研究内容：在对机电结构进行分析和优化的基础上，运用控制理论进行结构参数的调整，使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计研究内容：以仿生结构为研究对象，运用连续体结构拓扑优化设计理论和方法，对多相仿生结构(机构)材料进行2. 机电结构优化与控制研究内容：在对机电结构进行分析和优化的基础上，运用控制理论进行结构参数的调整，使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计研究内容：以仿生结构为研究对象，运用连续体结构拓扑优化设计理论和方法，对多相仿生结构(机构)材料进行整体布局设计。整体布局设计。

团队展示

研究生：

2025级：杨湘（学业奖学金）、黄博（学业奖学金）

2024级：金媛媛（学业奖学金）

2022级：黄鑫（国家奖学金；学业奖学金2次）

科研项目

[1] 国家自然科学基金青年项目，2025.01-2027.12，主持，30万

[2] 湖北省青年科技人才培养专项，2025.08-2027.08，主持，30万

[3] 催化基础国家重点实验室开放基金，2024.01-2026.12，主持，10万

[4] 武汉英才入选人才资助经费，2023.12-2025.12，主持，10万

[5] 湖北省自然科学基金青年项目，2022.12-2024.12，主持，8万

[6] 武汉纺织大学科研启动经费，2022.03-2024.12，主持，20万

研究成果

[18] Yuanyuan Jin1, Xiang Yang1, Bo Huang1, Guanji Wang, Xiang Bai*, Qi Zhang, Ajuan Yang, Anwar ul Haq Ali Shah, YunchuanTu*, Zheng Zhang*, Non-iridium-based electrocatalysts for the acidic oxygen evolution reaction: progress and perspectives, ACS Applied Materials & Interfaces, 2026, 18, 9339-9364.

[17] Meng Zhang1, Yuanyuan Jin1, Zheng Zhang*, Sónia A. C. Carabineiro, Xin Huang, Zixiang Cao, Can Peng, Shenzu Zhang, Ping Xiao, Junjiang Zhu*, Enhanced electrocatalytic CO2 reduction through surface modification of Cu-based catalysts, Fuel, 2025, 392, 134576.

[16] Caixia Zhu, Xiang Bai*, Yierxiati Dilixiati, Zheng Zhang, Chengyuan Dong, Li Yang, Jiaxu Zhang*, Fast oxidation fabrication of nanosized BiOCl-embedded 1D carbon nanofibers as a novel aqueous zinc-ion batteries cathode, Journal of Energy Storage, 2025, 131, 117611.

[15] Zheng Zhang, Danyang Li, Yunchuan Tu, Jiao Deng, Huiting Bi, Yongchao Yao, Yan Wang, Tingshuai Li, Yongsong Luo, Shengjun Sun, Dongdong Zheng, Sónia A. C. Carabineiro, Zhou Chen*, Junjiang Zhu*, Xuping Sun*, Electrocatalytic synthesis of C-N coupling compounds from CO2 and nitrogenous species, SusMat, 2024, 4, e193. (ESI高被引论文)

[14] Zhuangzhi Zhang1, Sijun Li1, Zheng Zhang*, Zhou Chen, Hua Wang*, Xianguang Meng*, Wenquan Cui, Xiwei Qi*, Jiacheng Wang*, A review on electrocatalytic CO2 conversion via C-C and C-N coupling, Carbon Energy, 2024, 6, e513.

[13] Gaoliang Fu,* Leilei Zhang, Ruixue Wei, Huili Liu, Ruipeng Hou, Zheng Zhang, Kun Yang, and Shouren Zhang*, P-incorporation induced enhancement of lattice oxygen participation in double perovskite oxides to boost water oxidation, Small, 2024, 20, 2309091.

[12] Dengxia Zhu, Huiting Bi*, Chaolong Wang, Zheng Zhang, Junjiang Zhu*, Construction of bimetallic phosphide nanostructures with in situ growth, reduction, and phosphidation of ultra-thin graphene layers as highly efficient catalysts towards the OER, Dalton Transactions, 2024, 53, 1132-1140.

[11] Zheng Zhang*, Xin Huang, Zhou Chen, Junjiang Zhu, Balázs Endrődi, Csaba Janáky, Dehui Deng*, Membrane electrode assembly for electrocatalytic CO2 reduction: principle and application, Angewandte Chemie International Edition, 2023, 62, e202302789. (ESI高被引论文)

[10] Xintao Ma,Yinggan Zhang, Tingting Fan, Diye Wei, Zongyi Huang, Zhihao Zhang, Zheng Zhang*, Yunyun Dong, Qiming Hong, Zhou Chen*, Xiaodong Yi*, Facet dopant regulation of Cu2O boosts electrocatalytic CO2 reduction to formate, Advanced Functional Materials, 2023, 33, 2213145. (ESI高被引论文)

[9] Attila Kormányos, Balázs Endrődi*, Zheng Zhang, Angelika Samu, László Mérai, Gergely F. Samu, László Janovák, Csaba Janáky*, Local hydrophobicity allows high-performance electrochemical carbon monoxide reduction to C2+ products, EES Catalysis, 2023, 1, 263-273.

[8] Chaolong Wang, Dengxia Zhu, Huiting Bi*, Zheng Zhang, Junjiang Zhu*, Synthesis of nitrogen and phosphorus/sulfur co-doped carbon xerogels for the efficient electrocatalytic reduction of p-nitrophenol, International Journal of Molecular Sciences, 2023, 24, 2432.

[7] Chunjin Wu, Zheng Zhang*, Taehoon Kim*, Suk Jin Kwon, Kyunbae Lee, Sang-Bok Lee, Moon-Kwang Um, Joon-Hyung Byun*, Tsu-Wei Chou, To investigate the effect of bidirectional dimension changes on the sensitivity of magnetic strain sensors, Chemical Engineering Journal, 2022, 450,138088.

[6] Suheng Wang1, Kelechi Uwakwe1, Liang Yu, Jinyu Ye, Yuezhou Zhu,Jingting Hu, Ruixue Chen, Zheng Zhang, Zhiyou Zhou, Jianfeng Li, Zhaoxiong Xie, Dehui Deng*, Highly efficient ethylene production via electrocatalytic hydrogenation of acetylene under mild conditions, Nature Communications, 2021, 12, 7072.

[5] Zheng Zhang1, Liang Yu1, Yunchuan Tu, Ruixue Chen, Lihui Wu, Junfa Zhu, Dehui Deng*, Unveiling the active site of metal-free nitrogen-doped carbon for electrocatalytic carbon dioxide reduction, Cell Reports Physical Science, 2020, 1, 100145.

[4] Zheng Zhang, Chao Ma, Yunchuan Tu, Rui Si, Jie Wei, Shuhong Zhang, Zhen Wang, Jian-Feng Li, Ye Wang, Dehui Deng*, Multiscale carbon foam confining single iron atoms for efficient electrocatalytic CO2 reduction to CO, Nano Research, 2019, 12, 2313-2317.

[3] Zheng Zhang1, Jianping Xiao1, Xue-Jiao Chen, Song Yu, Liang Yu, Rui Si, Yong Wang, Suheng Wang, Xianguang Meng, Ye Wang, Zhong-Qun Tian, Dehui Deng*, Reaction mechanisms of well-defined metal-N4 sites in electrocatalytic CO2 reduction, Angewandte Chemie International Edition, 2018, 57, 16339-16342. (ESI高被引论文)

[2] Wenbo Zhao*, Qian Zhao, Zheng Zhang, Jiaju Liu, Rui Chen,Yuan Chen, Jian Chen, Liquid-solid phase-change absorption of acidic gas by polyamine in nonaqueous organic solvent, Fuel, 2017, 209, 69-75.

[1] Zheng Zhang, Wenbo Zhao*, Jiejing Nong, Dong Feng, Yanhong Li, Yuan Chen, Jian Chen, Liquid-solid phase-change behavior of diethylenetriamine in nonaqueous systems for carbon dioxide absorption, Energy Technology, 2017, 5, 461-468.

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