翁哲-天津大学化工学院

翁哲教授

应用化学系

天津大学菁英教授，国家高层次海外青年人才，天津大学北洋青年学者，博士生导师。华中科技大学学士和硕士，中国科学院大学博士，耶鲁大学和加州大学洛杉矶分校博士后。

电子邮箱：zweng@tju.edu.cn
办公电话：
个人网站：https://nanoyang.tju.edu.cn/

科研方向阐述

主要从事多价金属电池（锌离子电池、铝离子电池等）、电催化资源转化利用（二氧化碳还原、氮转化等）电化学工程应用方向，聚焦其中电化学界面的过程强化研究，包括界面的动态演变机制、定制化设计以及原位构筑方法。

讲授课程

新型电化学储能技术前沿

高等电化学分析方法

材料电化学中的高新技术

碳、碳质材料和碳纳米技术

英文科技论文写作

学术兼职

任Journal of Electrochemistry（电化学）、Renewables、Materials Reports Energy、Green Carbon期刊青年编委

任中国海水提铀技术创新联盟理事

学术成就

在Nat Sustain, Nat Commun, Natl Sci Rev, J Am Chem Soc, Angew Chem Int Ed, Adv Mater, Energy Environ Sci等期刊发表中科院一区论文50余篇，被他引9400余次，授权发明专利7件，参与制定水系金属离子电池团体标准2项；2019年入选国家高层次海外青年人才项目，获2024年天津市自然科学一等奖（排名第三）、2024年中国青年科技奖天津市提名、2024年工信部第三届先进储能技术创新挑战赛创新创意类二等奖（排名第一）；主持国家重点研发计划课题1项、国家自然科学基金面上项目2项、天津市自然基金面上项目1项。

项目案例

长寿命水系锌离子电池；

本征安全、宽温域水合有机锌离子电池；

有机铝离子电池储能新体系；

二氧化碳还原铜基电催化剂的定制化重构；

高效硝酸根还原电催化剂设计与制备。

注：欢迎具备化学、材料、化工、计算机等相关学科背景的学生推免或者报考本人的硕士/博士研究生，以及在电池、电催化、理论计算等相关领域获得博士学位的优秀人才申请博士后。

论著专利

代表性论文：

(1) B, Zhang†, Z. Li†, D. Han†*, Z. Min†, C. Cui, L. Wang, Q. Li, X. Mao, Y. Sun, Z. Weng*, Q.-H. Yang* “Non-corrosive electrolyte with organodichloro solvation for highly reversible aluminium metal batteries,” Nature Sustainability 2025, accepted.

(2) X. Kai, P. Zhu, D. Han*, B. Zhang, X. Wang, Z. Wu*, Z. Weng*, Q.-H. Yang “Decoding “dead Mn” in MnO₂deposition/dissolution chemistry for energetic aqueous batteries: A perspective,” Energy Materials and Devices 2025, 3, 9370071.

(3) X. Wang†, Z. Wu†, Z. Li, K. Xie, Y. Wu, Y. Yue, P. Zhu, Z. Han, J. Gao, G. Jiang, D. Han, J. Huang, Q.-H. Yang*, Z. Weng* “Reimagining acidic CO₂ electroreduction via anion-mediated proton transfer,” National Science Review 2025, 12, nwaf334.

(4) W. Mei†, C.-W. Chang†, Z. Li†, X. Wang , Y. Qie, Q. Liu, R. C. Davis, Z. Wu, Y. Yue, C. Yang, S. Li, D. Han, Q.-H. Yang, Z. Feng*, Z. Weng* “Robust oxygen-vacancy-engineered Co(OH)₂/Cu heterojunctions boost nitrate electroreduction to ammonia beyond 2 A cm⁻²,” Advanced Materials 2025, 37, 2507363.

(5) Z. Han†, X. Wang†, J. Gao†, Z. Hu, Y. Wang, S. Li, X. Mao, Q.-H. Yang, Z. Weng* “Steric-dominated intermediate stabilization by organic cations enables highly selective CO₂ electroreduction,” Angewandte Chemie-international Edition 2025, 64, e202504785.

(6) X. Guo†, K. Zhang†, D. Han*, C. Cui, A. Liu, Y. Guo, J. Gao, R. Sun, C. Wei, L. Yin, G. He*, Z. Weng*, Q.-H. Yang “A spatiotemporal-orchestrated hybrid interphase for highly reversible zinc batteries,” Advanced Energy Materials 2025, 15, 2501180.

(7) Y. Yue†, Z. Wu†, Z. Ye†, Z. Li†, X. Wang, K. Xie, D. Han, Q.-H. Yang, Z. Weng* “Identifying Cu reconstruction mechanism in CO₂ and CO electroreduction via Cu⁺ detection and in-situ atomic force microscopy,” Science China Materials 2025, 68, 2381-2387.

(8) Q. He†, B. Zhang†, Y. Liu, D. Han*, Z. Weng*, Q.-H. Yang “Aluminum metal battery anodes: challenges and progresses,” Journal of the Chinese Ceramic Society 2025, 53, 1-5.

(9) Y. Xiao†, D. Han†*, B. Zhang, C. Cui, Z. Li, D. Fan, Y. Liu, Q. Li, F. Li, K. Xie, J. Wen, Z. Weng*, Q.-H. Yang “Boosting anion-cation coordination by anti-solvents towards durable hydrous organic zinc batteries,” Energy Storage Materials 2024, 72, 103693.

(10) Y. Qie†, J. Gao†, S. Li, M. Cui, X. Mao, X. Wang, B. Zhang, S. Chi, Y. Jia, Q.-H. Yang, C. Yang*, Z. Weng* “Unveiling multi-element synergy in polymetallic oxides for efficient nitrate reduction to ammonia,” Science China Materials 2024, 67, 2941-2948.

(11) D. Tang†, X. Zhang†, D. Han*, C. Cui, Z. Han, L. Wang, Z. Li, B. Zhang, Y. Liu, Z. Weng*, Q.-H. Yang* “Switching hydrophobic interface with ionic valves for reversible zinc batteries,” Advanced Materials 2024, 36, 2406071.

(12) X. Mao†, C. Chang†, Z. Li†, Z. Han, J. Gao, M. Lyons, G. Sterbinsky, Y. Guo, B. Zhang, Y. Wang, X. Wang, D. Han, Q.-H. Yang, Z. Feng*, Z. Weng* “Sustainedly high-rate electroreduction of CO₂ to multi-carbon products on nickel oxygenate/copper interfacial catalysts,” Advanced Energy Materials 2024, 14, 2400827.

(13) J. Gao†, Z. Han†, X. Wang, L. Wang, Y. Guo, C. Cui, D. Han, L. Zhi, Q.-H. Yang, Z. Weng* “Self-limited reconstruction realized via copper-Ligand interaction for stabilizing high-selective CO₂ electromethanation,” ACS Catalysis 2023, 13, 15457-15466.

(14) Q. Tang, L. Bai, C. Zhang*, R. Meng, L. Wang, C. Geng, Y. Guo, F. Wang, Y. liu, G. Song, G. Ling, H. Sun, Z. Weng*, Q.-H. Yang “Molecular catalysts with electronic axial stretching for high-performance lean-oxygen seawater batteries,” Science Bulletin 2023, 68, 3172-3180.

(15) Y. Wang, Z. Han, J. Gao, X. Wang, S. Li, Q.-H. Yang, Z. Weng* “Strategies for regulating product selectivity of copper-based catalysts in eletrochemical CO₂ reduction,” Chemical Industry and Engineering Progress 2023, 42, 4043-4057.

(16) Z. Zhang, D. Han*, D. Fan, Y. Tao, Z. Weng*, Q.-H. Yang* “Recent advances in crystal plane regulation of zinc metal anodes for intrinsically safe aqueous zinc-ion batteries,” Chemical Industry and Engineering Progress 2023, 42, 2504-2515.

(17) C. Cui, D. Han*, H. Lu, Z. Li, K. Zhang, B. Zhang, X. Guo, R. Sun, X. Ye, J. Gao, Y. Liu, Y. Guo, R. Meng, C. Wei, L. Yin, F. Kang, Z. Weng*, Q.-H. Yang “Breaking Consecutive Hydrogen-Bond Network Toward High-Rate Hydrous Organic Zinc Batteries,” Advanced Energy Materials 2023, 13, 2301466.

(18) R. Sun†, D. Han†*, C. Cui, Z. Han, X. Guo, B. Zhang, Y. Guo, Y. Liu, Z. Weng*, Q.-H. Yang* “A self-deoxidizing electrolyte additive enables highly stable aqueous zinc batteries,” Angewandte Chemie-international Edition 2023, 62, e202303557. Highly Cited Paper, Hot Paper

(19) S. Li†, D. Han†, G. Jiang, Z. Han, H. Lu, J. Gao, X. Wang, Y. Wang, C. Geng, Z. Weng*, Q.-H. Yang “Proton exchange membrane electrode assembly for ammonia electrosynthesis from nitrate,” ACS Applied Energy Materials 2023, 6, 5067-5073.

(20) X. Ye†, D. Han†*, G. Jiang, C. Cui, Y. Guo, Y. Wang, Z. Zhang, Z. Weng*, Q.-H. Yang “Unraveling the Deposition/Dissolution Chemistry of MnO₂ for High-Energy Aqueous Batteries,” Energy & Environmental Science 2023, 16, 1016-1023. Highly Cited Paper

(21) G. Jiang†, D. Han†, Z. Han, J. Gao, X. Wang, Z. Weng*, Q.-H. Yang “Rational manipulation of intermediates on copper for CO₂ electroreduction toward multicarbon products,” Transactions of Tianjin University 2022, 28, 265-291.

(22) Z. Han†, D. Han†, Z. Chen†, J. Gao, G. Jiang, X. Wang, S. Lyu, Y. Guo, C. Geng, L. Yin*, Z. Weng*, Q.-H. Yang* “Steering Surface Reconstruction of Copper with Electrolyte Additives for CO₂ Electroreduction,” Nature Communications 2022, 13, 3158. Selected as Editors’ Highlights

(23) D. Han†, Z. Wang†, H. Lu, H. Li, C. Cui, Z. Zhang, R. Sun, C. Geng, Q. Liang, X. Guo, Y. Mo, X. Zhi, F. Kang, Z. Weng*, Q.-H. Yang “A self-regulated interface toward highly reversible aqueous zinc batteries,” Advanced Energy Materials 2022, 12, 2102982. Highly Cited Paper, Top Cited paper in AEM 2022-2023

(24) D. Han†, C. Cui†, K. Zhang, Z. Wang, J. Gao, Y. Guo, Z. Zhang, S. Wu, L. Yin, Z. Weng*, F. Kang*, Q.-H. Yang* “A nonflammable hydrous organic electrolyte for zinc batteries with enhanced sustainability,” Nature Sustainability 2022, 5, 205-213. Highly Cited Paper, Hot Cited Paper

Research highlight: Florencio Santos, Antonio J. Fernández Romero “Hydration as a solution to zinc batteries,” Nature Sustainability 2022, 5, 179-180.

https://doi.org/10.1038/s41893-021-00834-z

(25) D. Han†, S. Wu†, S. Zhang, Y. Deng, C. Cui, L. Zhang, Y. Long, H. Li, Y. Tao, Z. Weng*, Q.-H. Yang*, F. Kang* "A corrosion-resistant and dendrite-free zinc metal anode in aqueous systems," Small 2020, 16, 2001736. (†equal contributions) Highly Cited Paper

(26) Z. Weng†, Y. Wu†, M. Wang†, J. Jiang, K. Yang, S. Huo, X. Wang, Q. Ma, G. W. Brudvig, V. S. Batista, Y. Liang*, Z. Feng*, H. Wang* “Active sites of copper-complex catalytic materials for electrochemical carbon dioxide reduction,” Nature Communications 2018, 9, 415. (†equal contributions) Highly Cited Paper

(27) Z. Weng, X. Zhang, Y. Wu, S. Huo, J. Jiang, W. Liu, G. He, Y. Liang*, H. Wang* “Self-cleaning catalyst electrodes for stabilized co₂ reduction to hydrocarbons,” Angewandte Chemie-international Edition 2017, 56, 13135-13139.

(28) Z. Weng†, J. Jiang†, Y. Wu, Z. Wu, X. Guo, K. L. Materna, W. Liu, V. S. Batista, G. W. Brudvig*, H. Wang* “Electrochemical CO₂ Reduction to Hydrocarbons on a Heterogeneous Molecular Cu Catalyst in Aqueous Solution,” Journal of the American Chemical Society 2016, 138, 8076–8079. (†equal contributions) Highly Cited Paper

(29) Z. Weng, W. Liu, L. C. Yin, R. Fang, M. Li, E. I. Altman, Q. Fan, F. Li, H. M. Cheng, H. Wang* “Metal/Oxide Interface Nanostructures Generated by Surface Segregation for Electrocatalysis,” Nano Letters 2015, 15, 7704–7710.

(30) Z. Weng, F. Li*, D. W. Wang, L. Wen, H. M. Cheng* “Controlled Electrochemical Charge Injection to Maximize the Energy Density of Supercapacitors,” Angewandte Chemie-international Edition 2013, 125, 3810–3813.

(31) Z. Weng†, Y. Su†, D. W. Wang, F. Li, J. Du, H. M. Cheng* “Graphene-Cellulose Paper Flexible Supercapacitors,” Advanced Energy Materials 2011, 1, 917–922. (†equal contributions) Highly Cited Paper

专利：

1、翁哲; 梅伟杰; 王新宇; 韩大量; 杨全红; 一种具有氧空位的氢氧化钴铜异质结催化剂及其应用, 2025-6-3, 中国, CN202510732100.1

2、翁哲; 梅伟杰; 王新宇; 韩大量; 杨全红; 一种钴铁合金催化剂的制备方法和应用, 2025-6-3, 中国, CN202510732082.7

3、翁哲; 张渤; 韩大量; 陈红凤; 何清; 杨全红; 一种高可逆的铝基有机电解液及应用, 2024-5-24, 中国, CN202410655080.8

4、翁哲; 张渤; 韩大量; 李治国; 崔长俊; 陈红凤; 何清; 杨全红; 一种铝基有机电解液及其应用, 2024-05-21, 中国, CN202410636893.2

5、翁哲; 樊丁辉; 韩大量; 杨全红; 含氮化合物作为水系储能器件中自消氢添加剂的应用, 2024-05-20, 中国, CN202410628127.1

6、翁哲; 韩大量; 崔长俊; 郭晓霞; 杨全红; 一种锌基电化学储能器件, 2024-4-12, 中国, ZL202111117846.X (已授权)

7、翁哲; 韩大量; 孙睿; 崔长俊; 杨全红; 锌金属电池的自除氧电解液添加剂、电解液和锌金属电池, 2023-04-28, 中国, CN202310484818.4

8、翁哲; 樊丁辉; 韩大量; 杨全红; 电催化剂作为水系储能器件中自消氢催化剂的应用, 2023-03-27, 中国, CN202310309062.X

9、翁哲; 韩子姗; 韩大量; 高嘉辰; 蒋光翊; 王新宇; 杨全红; 一种提高铜基电催化剂性能的方法及应用, 2022-5-30, 中国, ZL202210597122.8 (已授权)

招生信息

研究生导师类型	学术型硕导,专业型硕导,学术型博导,专业型博导
学术型硕士招生学科	081704应用化学,0817Z3材料化工
学术型硕士招生研究方向	02电化学
专业型硕士招生学科	085600材料与化工(专业学位)
专业型硕士招生研究方向	04电化学
学术型博士招生学科	081704应用化学,0817Z3材料化工,0817Z2能源化工
专业型博士招生学科	085800能源动力,085600材料与化工

团队成员

项目图集

师资队伍

翁哲 教授

翁哲教授