钟熊伟-化环学院

钟熊伟

职称：助理教授

EMAIL：zhongxw@szu.edu.cn

基本信息：

钟熊伟，男，博士，助理教授，硕士生导师，主要研究方向为锌空气电池、ORR/OER双功能催化剂、水系电池、锂离子电池、固态电池和电极界面调控。在Nat. Commun.、Adv. Mater.、Appl. Catal. B: Environ.、ACS Nano、Nano Lett.等期刊发表论文50余篇，其中第一/通讯论文17篇，10篇入选高被引论文，H指数36，论文总引用次数4800余次（Google学术）；获授权中国专利7项。

学习和工作经历：

2025.09 – 至今深圳大学，化学与环境工程学院，助理教授，团队负责人：王丹教授（杰青）

2022.07 – 2025.08 南方科技大学，材料科学与工程系，研究助理教授，团队负责人：徐保民教授（千人计划）

2020.06 – 2022.06 清华大学深圳国际研究生院，材料研究院，博士后，合作导师：周光敏副教授（青千）

2016.09 – 2019.10 澳门大学，应用物理与材料工程所，博士，导师：Hui PAN教授（副所长）

2014.06 – 2016.08 南方科技大学，材料科学与工程系，研究助理

2012.09 – 2014.07 东北大学，硕士，冶金学院，导师：石忠宁教授（优青）

2008.09 – 2012.07 江西理工大学，学士，材料与冶金学院

授权专利：

1. 周光敏，钟熊伟，成会明，一种无锌负极锌空气电池，中国发明专利，CN114156572B，授权时间：2024年01月02日；

2. 周光敏，郑志扬，钟熊伟，多孔蛭石纳米片的制备方法及多孔蛭石纳米片、水系锌离子电池负极，中国发明专利，CN116443887B，授权时间：2024年09月03日；

3. 徐保民，钟熊伟；金属单原子催化剂及其制备方法，中国发明专利，CN111420691B，授权时间：2022年12月16日；

4. 徐保民，钟熊伟，唐俊，白浩宇；双功能催化剂及其制备方法、金属空气电池，中国发明专利，CN111554941B，授权时间：2022年01月04日；

5. 潘晖，钟熊伟；一种碳包覆的富氮g-C₃N₄和负极材料及其制备方法，中国发明专利，CN110148713B，授权时间：2021年02月05日；

6. 徐保民，钟熊伟, 孙政，鲁延文，唐俊，李向楠，张杰；一种凝胶电解质及其制备方法、气体传感器和应用，中国发明专利，CN107817282B，授权时间：2020年03月17日；

7. 徐保民，唐俊，钟熊伟；一种激光还原批量生产石墨烯粉末的方法，中国发明专利，CN107651674B，授权时间：2020年09月18日；（该专利已转让，受让人：深圳普太科技有限公司）

8. 石忠宁，钟熊伟等；一种氟化盐离子液体的合成方法，中国发明专利，CN103992275B，授权时间：2016年08月17日；

受理专利：

1. 徐保民，钟熊伟；一种核壳结构纳米颗粒的制备方法、纳米颗粒及其应用，中国发明专利，CN116706011A，申请时间：2023年06月01日；

2. 徐保民，钟熊伟，黎芷彤，高乐怡；一种锌空电池的负极及其制备方法和应用，中国发明专利，CN116247159A，申请时间：2023年02月14日；

3. 徐保民，钟熊伟，黎芷彤，高乐怡；一种锌空电池的电解液及其制备方法和应用，中国发明专利，CN116154368A，申请时间：2023年02月14日；

4. 徐保民，高乐怡，钟熊伟，黎芷彤，崔书雨；一种多元合金及制备方法和应用，中国发明专利，CN116411196A，申请时间：2023年02月14日；

5. 徐保民，崔书雨，钟熊伟，王行柱；一种高熵合金材料及其制备方法和应用，中国发明专利，CN119800198A，申请时间：2024年12月31日；

6. 徐保民，雷志伟，王行柱，钟熊伟；一种MXene修饰的液体蒸发器及其制备方法和应用，中国发明专利，CN118987639A，申请时间：2024年08月27日；

7. 徐保民，刘作成，王行柱，贺思如，钟熊伟，胡碧华，彭晶；一种电解液及其制备方法和应用，中国发明专利，CN116053594A，申请时间：2023年02月14日；

学术论文：

1. S. Cui¹, Xiongwei Zhong^1,*, Z. Li, P. Zhu, J. Hu, X. Zhou, P. Kidkhunthod, X. Wang*, B. Mei*, B. Xu*. Nanosecond Laser Synthesis of MXene-Derived TiO₂/High-Entropy Alloys for Photo-Assisted Zinc-Air Batteries. Advanced Materials (2025), 37, 2504099. (共同第一作者及通讯作者，中科院1区)

2. Z. Liu¹, J. Liu¹, Xiongwei Zhong¹, Z. Xiao, X. Xiao, W. Yao, Z. Zheng, F. Zheng, Q. Fu, G. Zhou*. Breaking the Reversibility Barrier in Zn-Air Systems With Dual-Electrolyte Engineering. Advanced Materials (2025), 37, 2507851. （共同第一作者，中科院1区）

3. Xiongwei Zhong^1,*, X. Xiao¹, Q. Li, M. Zhang, Z. Li, L. Gao, B. Chen, Z. Zheng, Q. Fu, X. Wang, G. Zhou*, B. Xu*, Understanding the active site in chameleon-like bifunctional catalyst for practical rechargeable zinc-air batteries, Nature Communications 2024, 15(1), 9616. (第一作者及通讯作者，中科院1区)

4. Xiongwei Zhong¹, Y. F. Shao¹, B. Chen, C. Li, J. Z. Sheng, X. Xiao, B. M. Xu, J. Li*, H. M. Cheng*, G. M. Zhou*, Rechargeable Zinc-Air Batteries with an Ultralarge Discharge Capacity per Cycle and an Ultralong Cycle Life, Advanced Materials 2023, 35(30), 2301952.（第一作者，中科院1区）

5. Xiongwei Zhong¹, Z. Zheng¹, J. Xu¹, X. Xiao, C. Sun, M. Zhang, J. Ma, B. Xu, K. Yu, X. Zhang, H. M. Cheng, G. Zhou*, Flexible Zinc-Air Batteries with Ampere-Hour Capacities and Wide-Temperature Adaptabilities, Advanced Materials 2023, 35(13), 2209980.（第一作者，中科院1区）

6. Xiongwei Zhong¹, Dashuai Wang¹, Jinzhi Sheng, Zhiyuan Han, Chongbo Sun, Junyang Tan, Runhua Gao, Wei Lv, Xiaomin Xu, Guodan Wei, Xiaolong Zou, Guangmin Zhou*. Freestanding and Sandwich MXene-Based Cathode with Suppressed Lithium Polysulfides Shuttle for Flexible Lithium-Sulfur Batteries. Nano Letters 2022, 22(3), 1207-1216.（第一作者，发表当年是中科院1区）

7. Xiongwei Zhong, Shulong Ye, Jun Tang, Yuanmin Zhu, Duojie Wu, Meng Gu, Hui Pan*, Baomin Xu*. Engineering Pt and Fe dual-metal single atoms anchored on nitrogen-doped carbon with high activity and durability towards oxygen reduction reaction for zinc-air battery, Applied catalysis B: Environmental 2021, 286, 119891.（第一作者，中科院1区）

8. Xiongwei Zhong¹, Wendi Yi¹, Yuanju Qu, Luozheng Zhang, Haoyu Bai, Yuanmin Zhu, Jing Wan, Shi Chen, Ming Yang, Li Huang, Meng Gu, Hui Pan*, Baomin Xu*. Co single-atom anchored on Co₃O₄ and Nitrogen-doped active carbon toward bifunctional catalyst for zinc-air batteries, Applied Catalysis B: Environment 2020, 260, 118188.（第一作者，中科院1区）

9. Z. Li¹, Xiongwei Zhong^1,*, L. Gao, J. Hu, W. Peng, X. Wang, G. Zhou*, B. Xu*, Asymmetric Coordination of Bimetallic Fe–Co Single-Atom Pairs toward Enhanced Bifunctional Activity for Rechargeable Zinc-Air Batteries, ACS Nano 2024, 18(20), 13006.（共同第一作者及通讯作者，中科院1区）

10. Z. Zheng¹, Xiongwei Zhong¹, Q. Zhang¹, M. Zhang, L. Dai, X. Xiao, J. Xu, M. Jiao, B. Wang, H. Li, Y. Jia, R. Mao, G. Zhou*, An extended substrate screening strategy enabling a low lattice mismatch for highly reversible zinc anodes, Nature Communications 2024, 15(1), 753.（共同第一作者，中科院1区）

11. X. Xiao¹, Z. Zheng¹, Xiongwei Zhong¹, R. Gao, Z. Piao, M. Jiao, G. Zhou*, Rational Design of Flexible Zn-Based Batteries for Wearable Electronic Devices, ACS Nano 2023, 17(3), 1764.（共同第一作者，中科院1区）

12. Xiongwei Zhong, Yingzhi Li, Luozheng Zhang, Jun Tang, Xiangnan Li, Chang Liu, Mengmeng Shao, Zhouguang Lu*, Hui Pan*, and Baomin Xu*. High-Performance Sodium Ion Batteries based on Nitrogen-Doped Mesoporous Carbon Spheres with Ultrathin Nanosheets, ACS applied materials & interfaces 2018, 11(3), 2970-2977.（第一作者，发表当年是中科院1区）

13. Xiongwei Zhong, Jun Tang, Jingwei Wang, Mengmeng Shao, Jianwei Chai, Shuangpeng Wang, Ming Yang, Ye Yang, Ning Wang, Shijie Wang, Baomin Xu^*, Hui Pan*. 3D heterostructured pure and N-Doped Ni₃S₂/VS₂ nanosheets for high-efficient overall water splitting, Electrochimica Acta 2018, 269, 55-61.（第一作者，发表当年是中科院1区）

14. Xiongwei Zhong¹, Lin Zhang¹, Jun Tang, Jianwei Chai, Jincheng Xu, Lujie Cao, Mingyang Yang, Ming Yang, Weiguang Kong, Shijie Wang, Hua Cheng, Zhouguang Lu, Chun Chen^*, Baomin Xu* and Hui Pan*. Efficient coupling of a hierarchical V₂O₅@Ni₃S₂ hybrid nanoarray for pseudocapacitors and hydrogen production, Journal of Materials Chemistry A 2017, 5(34), 17954-17962.（第一作者，发表当年是中科院1区）

15. Xiongwei Zhong, Jun Tang, Lujie Cao, Weiguang Kong, Zheng Sun, Hua Cheng, Zhouguang Lu, Hui Pan* and Baomin Xu*. Cross-linking of polymer and ionic liquid as high-performance gel electrolyte for flexible solid-state supercapacitors, Electrochimica Acta 2017, 244, 112-118.（第一作者，发表当年是中科院1区）

16. Qikai Huang¹, Xiongwei Zhong¹, Qi Zhang¹, Xin Wu, Miaolun Jiao, Biao Chen, Jinzhi Sheng, Guangmin Zhou*. Co₃O₄/Mn₃O₄ hybrid catalysts with heterointerfaces as bifunctional catalysts for Zn-air batteries, Journal of Energy Chemistry 2022, 68, 679-687.（共同第一作者，中科院1区）

17. L. Gao, Xiongwei Zhong*, Z. Li, J. Hu, S. Cui, X. Wang*, B. Xu*, A multi-layer reduced graphene oxide catalyst encapsulating a high-entropy alloy for rechargeable zinc-air batteries, Chemical Communications 2024, 60(10), 1269.（通讯作者，中科院2区）

共同作者发表论文

1 Z. Liu, X. Wu, X. Xiao, Z. Xiao, Q. Fu, Z. Zheng, Xiongwei Zhong, F. Zheng, G. Zhou, Electrochemical dendrite management via voltage-controlled rearrangement, National Science Review 2025, 12(4), nwaf013.（中科院1区）

2 Q. Fu, W. Zhang, X. Liu, Y. Liu, Z. Lei, M. Zhang, H. Qu, X. Xiao, Xiongwei Zhong, Z. Liu, P. Qin, J. Yang, G. Zhou, Dynamic Imine Chemistry Enables Paintable Biogel Electrolytes to Shield On-Body Zinc-Ion Batteries from Interfacial Interference, Journal of the American Chemical Society 2024, 146(50), 34950.（中科院1区）

3 C. Li, Q. Zhang, J. Sheng, B. Chen, R. Gao, Z. Piao, Xiongwei Zhong, Z. Han, Y. Zhu, J. Wang, G. Zhou, H.-M. Cheng, A quasi-intercalation reaction for fast sulfur redox kinetics in solid-state lithium–sulfur batteries, Energy & Environmental Science 2022, 15(10), 4289.（中科院1区）

4 Z. Han, S. Zhao, J. Xiao, Xiongwei Zhong, J. Sheng, W. Lv, Q. Zhang, G. Zhou, H. M. Cheng, Engineering d-p Orbital Hybridization in Single-Atom Metal-Embedded Three-Dimensional Electrodes for Li-S Batteries, Advanced Materials 2021, 33(44), e2105947.（中科院1区）

5 B. Chen, Xiongwei Zhong G. Zhou, N. Zhao, H. M. Cheng, Graphene‐Supported Atomically Dispersed Metals as Bifunctional Catalysts for Next‐Generation Batteries Based on Conversion Reactions, Advanced Materials 2021, 34(5), 2105812.（中科院1区）

6 R. Gao, Q. Zhang, Y. Zhao, Z. Han, C. Sun, J. Sheng, Xiongwei Zhong, B. Chen, C. Li, S. Ni, Z. Piao, B. Li, G. Zhou, Regulating Polysulfide Redox Kinetics on a Self‐Healing Electrode for High‐Performance Flexible Lithium‐Sulfur Batteries, Advanced Functional Materials 2021, 32(15), 2110313.（中科院1区）

7 J. Sheng, Q. Zhang, C. Sun, J. Wang, Xiongwei Zhong, B. Chen, C. Li, R. Gao, Z. Han, G. Zhou, Crosslinked Nanofiber‐Reinforced Solid‐State Electrolytes with Polysulfide Fixation Effect Towards High Safety Flexible Lithium–Sulfur Batteries, Advanced Functional Materials 2022, 32(40).（中科院1区）

8 Z. Zhuang, J. Wang, K. Jia, G. Ji, J. Ma, Z. Han, Z. Piao, R. Gao, H. Ji, Xiongwei Zhong, G. Zhou, H. M. Cheng, Ultrahigh-Voltage LiCoO₂ at 4.7 V by Interface Stabilization and Band Structure Modification, Advanced Materials 2023, 35(22), e2212059.（中科院1区）

9 Y. Liu, S. Zhao, D. Wang, B. Chen, Z. Zhang, J. Sheng, Xiongwei Zhong, X. Zou, S. P. Jiang, G. Zhou, H. M. Cheng, Toward an Understanding of the Reversible Li-CO₂ Batteries over Metal-N₄-Functionalized Graphene Electrocatalysts, ACS Nano 2022, 16(1), 1523.（中科院1区）

10 J. Sheng, Q. Zhang, M. Liu, Z. Han, C. Li, C. Sun, B. Chen, Xiongwei Zhong, L. Qiu, G. Zhou, Stabilized Solid Electrolyte Interphase Induced by Ultrathin Boron Nitride Membranes for Safe Lithium Metal Batteries, Nano Letters 2021, 21(19), 8447.（发表当年是中科院1区）

11 M. Jiao, Q. Zhang, C. Ye, Z. Liu, Xiongwei Zhong, J. Wang, C. Li, L. Dai, G. Zhou, H.-M. Cheng, Recycling spent LiNi_1-x-yMn_xCo_yO₂ cathodes to bifunctional NiMnCo catalysts for zinc-air batteries, Proceedings of the National Academy of Sciences 2022, 119(20), e2202202119.（中科院1区）

12 J. Peng, B. Hu, Z. Li, Xiongwei Zhong, J. Shi, S. Cui, X. Wang, B. Xu, Regulating atomic Fe/Cu dual sites with unsymmetrical Fe-N6 and Cu-N₁S₂ coordination for promoting bifunctional oxygen electrocatalysis in advanced zinc-air batteries, Energy Storage Materials 2024, 68, 103342.（中科院1区）

13 G. Lu, X. Wu, M. Huang, M. Zhang, Z. Piao, Xiongwei Zhong, C. Li, Y. Song, C. Chang, K. Yu, G. Zhou, A self-adsorption molecule passivated interface enables efficient and stable lithium metal batteries, Energy & Environmental Science 2024, 17(24), 9555.（中科院1区）

14 Z. Liu, J. Liu, X. Xiao, Z. Zheng, Xiongwei Zhong, Q. Fu, S. Wang, G. Zhou, Unraveling Paradoxical Effects of Large Current Density on Zn Deposition, Advanced Materials 2024, 36(27), 2404140.（中科院1区）

15 J. Peng, B. Hu, Z. Li, Z. Lei, Xiongwei Zhong, X. Wang, B. Xu, Boosting the dynamic reconstitution of FeCu–N4 sites via doping of bimetal nanoparticles during oxygen electrocatalysis, Catalysis Science & Technology 2023, 13(24), 7106.（中科院3区）

16 H. Li, B. Chen, R. Gao, F. Xu, X. Wen, Xiongwei Zhong, C. Li, Z. Piao, N. Hu, X. Xiao, F. Shao, G. Zhou, J. Yang, Integrating molybdenum sulfide selenide-based cathode with C-O-Mo heterointerface design and atomic engineering for superior aqueous Zn-ion batteries, Nano Research 2023, 16(4), 4933.（中科院1区）

17 J. Feng, Xiongwei Zhong, M. Chen, P. Zhou, L. Qiao, H. Bai, D. Liu, D. Liu, Y.-Y. Chen, W. F. Ip, S. Chen, J. Ni, D. Liu, H. Pan, Iron-incorporated defective graphite by in-situ electrochemical oxidization for oxygen evolution reaction, Journal of Power Sources 2023, 561, 232700.（中科院2区）

18 X. Xu, C. Ye, D. Chao, B. Chen, H. Li, C. Tang, Xiongwei Zhong, S.-Z. Qiao, Synchrotron X-ray Spectroscopic Investigations of In-Situ-Formed Alloy Anodes for Magnesium Batteries, Advanced Materials 2022, 34(8), 2108688.（中科院1区）

19 B. Chen, D. Wang, B. Zhang, Xiongwei Zhong, Y. Liu, J. Sheng, Q. Zhang, X. Zou, G. Zhou, H.-M. Cheng, Engineering the Active Sites of Graphene Catalyst: From CO₂ Activation to Activate Li-CO₂ Batteries, ACS Nano 2021, 15(6), 9841.（中科院1区）

20 J. Tang, T. Mathis, Xiongwei Zhong, X. Xiao, H. Wang, M. Anayee, F. Pan, B. Xu, Y. Gogotsi, Optimizing Ion Pathway in Titanium Carbide MXene for Practical High-Rate Supercapacitor, Advanced Energy Materials 2021, 11(4), 2003025.（中科院1区）

21 Q. Huang, S. Ni, M. Jiao, Xiongwei Zhong, G. Zhou, H.-M. Cheng, Aligned Carbon-Based Electrodes for Fast-Charging Batteries: A Review, Small 2021, 17(48), 2007676.（中科院2区）

22 M. Shao, Y. Shao, S. Ding, J. Wang, J. Xu, Y. Qu, Xiongwei Zhong, X. Chen, W. F. Ip, N. Wang, B. Xu, X. Shi, X. Wang, H. Pan, Vanadium disulfide decorated graphitic carbon nitride for super-efficient solar-driven hydrogen evolution, Applied Catalysis B: Environmental 2018, 237, 295.（中科院1区）

23 J. Tang, W. Yi, Xiongwei Zhong, C. Zhang, X. Xiao, F. Pan, B. Xu, Laser writing of the restacked titanium carbide MXene for high performance supercapacitors, Energy Storage Materials 2020, 32, 418.（中科院1区）

24 B. Niu, C. Lu, W. Yi, S. Luo, X. Li, Xiongwei Zhong, X. Zhao, B. Xu, In-situ growth of nanoparticles-decorated double perovskite electrode materials for symmetrical solid oxide cells, Applied Catalysis B: Environmental 2020, 270, 118842.（中科院1区）

25 D. Liu, R. Tong, Y. Qu, Q. Zhu, Xiongwei Zhong, M. Fang, K. Ho Lo, F. Zhang, Y. Ye, Y. Tang, S. Chen, G. Xing, H. Pan, Highly improved electrocatalytic activity of NiSx: Effects of Cr-doping and phase transition, Applied Catalysis B: Environmental 2020, 267, 118721.（中科院1区）

26 X. Zhou, M. Hu, C. Liu, L. Zhang, Xiongwei Zhong, X. Li, Y. Tian, C. Cheng, B. Xu, Synergistic effects of multiple functional ionic liquid-treated PEDOT:PSS and less-ion-defects S-acetylthiocholine chloride-passivated perovskite surface enabling stable and hysteresis-free inverted perovskite solar cells with conversion efficiency over 20%, Nano Energy 2019, 63, 103866.（发表当年是中科院1区）

27 L. Zhang, X. Zhou, Xiongwei Zhong, C. Cheng, Y. Tian, B. Xu, Hole-transporting layer based on a conjugated polyelectrolyte with organic cations enables efficient inverted perovskite solar cells, Nano Energy 2019, 57, 248.（发表当年是中科院1区）

28 L. Cao, M. Yang, D. Wu, F. Lyu, Z. Sun, Xiongwei Zhong, H. Pan, H. Liu, Z. Lu, Biopolymer-chitosan based supramolecular hydrogels as solid state electrolytes for electrochemical energy storage, Chemical Communications 2017, 53(10), 1615.（中科院2区）

29 X. Li, J. Zhang, Q. Feng, C. Pu, L. Zhang, M. Hu, X. Zhou, Xiongwei Zhong, W. Yi, J. Tang, Z. Li, X. Zhao, H. Li, B. Xu, Redox inactive ion meliorated BaCo_0.4F_e0.4Zr_0.1Y_0.1O₃₋_δ perovskite oxides as efficient electrocatalysts for the oxygen evolution reaction, Journal of Materials Chemistry A 2018, 6(36), 17288.（发表当年是中科院1区）