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张杭博士

单位：能源化学系

邮箱：hang@wzu.edu.cn
地址：温州市国家大学科技园22号楼508室
研究方向：

个人简介

个人简介

张杭：2024年博士毕业于澳大利亚伍伦贡大学，博士师从侴术雷教授、王佳兆教授。同年5月加入beat365官方网站，同时担任温州大学碳中和技术创新研究院院长助理，主要从事包含钠离子电池正极材料以及电芯应用等相关课题的研究。作为项目负责人获批浙江省自然科学基金青年项目、温州市基础性科研项目、南开大学能源材料化学教育部重点实验室开放基金、教育部产学合作协同育人项目、温州大学启动经费等项目。入选eScience,Exploration,Carbon Neutral.青年编委，以第一作者或通讯作者在国内外权威学术期刊发表论文二十余篇，包括Nat. Commun., Angew. Chem. Int. Ed.，Adv. Mater., Adv. Energy Mater.，Adv. Funct. Mater.，ACS Nano，Energy Storage Mater.，Small Methods等。申请国家发明专利五项，其中两项已获得授权。

工作经历

2024/05 – 至今，讲师，beat365官方网站

2024/06 – 至今，院长助理，温州大学碳中和技术创新研究院

教育经历

2021/03 – 2024/02，博士

超导与电子材料研究所，伍伦贡大学，澳大利亚

2017/09 – 2020/06，硕士

环境与化学工程学院，上海大学

科研项目

[1] 快充型钠离子电池用普鲁士白正极材料设计与电极-电解液界面优化，2025.01.01-2026.12.31，浙江省自然科学基金青年基金项目，10万，主持（在研）；

[2] 钠离子电池用高性能普鲁士白材料的结构调控，2024.7.1-2026.6.30，温州市基础性科研项目，8万，主持（在研）

[3] 高容量普鲁士白正极材料用于功率型钠离子圆柱电池，2025.01-2026.12，南开大学先进能源材料化学教育部重点实验室开放基金，2万，主持（在研）；

[4] 钠离子电池极片工艺创新及双师型师资建设，2025.01-2025.12，教育部产学合作协同育人项目，2万，主持（在研）。

代表性论文

[1] H. Zhang, J. Li, J. Liu, Y. Gao, Y. Fan, X. Liu, C. Guo, H. Liu, X. Chen, X. Wu, Y. Liu, Q. Gu, L. Li, J. Wang, S.-L. Chou, Understanding capacity fading from structural degradation in Prussian blue analogues for wide-temperature sodium-ion cylindrical battery, Nat. Commun., 16 (2025) 2520.

[2] X. Chen*, H. Jiang, J.-H. Liu, H. Zhang*, C. Zhan, Y. Gao, X. Jiang, Y. Wang, X. Cao, S.-L. Chou*, Covalent Organic Frameworks and Their Derivatives for Applications in High-Performance Lithium–Sulfur Batteries, Adv. Funct. Mater., (2024) 2421697.

[3] P. Chen, X. Lin, B. Yang, Y. Gao, Y. Xiao, L. Li, H. Zhang*, L. Li, Z. Zheng, J. Wang*, S. Chou*, Cellulose Separators for Rechargeable Batteries with High Safety: Advantages, Strategies, and Perspectives, Adv. Funct. Mater., 34 (2024) 2409368.

[4] C. Guo, Y. Gao, S.Q. Li, Y. Wang, X.J. Yang, C. Zhi, H. Zhang*, Y.F. Zhu*, S. Chen, S.L. Chou, S.X. Dou, Y. Xiao*, X. Luo*, Chemical‐Stabilized Aldehyde‐Tuned Hydrogen‐Bonded Organic Frameworks for Long‐Cycle and High‐Rate Sodium‐Ion Organic Batteries, Adv. Funct. Mater., 34 (2024) 2314851.

[5] H. Yao, Y. Gao, X. Lin, H. Zhang*, L. Li*, S. Chou*, Prussian Blue Analogues for Aqueous Sodium‐Ion Batteries: Progress and Commercialization Assessment, Adv. Energy Mater., (2024) 2401984.

[6] X. Chen, J.-H. Liu, H. Jiang, C. Zhan, Y. Gao, J. Li, H. Zhang*, X. Cao*, S. Dou, Y. Xiao*, Metal organic framework-based cathode materials for aqueous zinc-ion batteries: Recent advances and perspectives, Energy Storage Mater., 65 (2024).

[7] H. Zhang, Y. Gao, J. Peng, Y. Fan, L. Zhao, L. Li, Y. Xiao, W.K. Pang, J. Wang, S.L. Chou, Prussian Blue Analogues with Optimized Crystal Plane Orientation and Low Crystal Defects toward 450 Wh kg^-1 Alkali-Ion Batteries, Angew. Chem. Int. Ed., 62 (2023) e202303953.

[8] H. Zhang, Y. Gao, X. Liu, L. Zhou, J. Li, Y. Xiao, J. Peng, J. Wang, S.L. Chou, Long‐Cycle‐Life Cathode Materials for Sodium‐Ion Batteries toward Large‐Scale Energy Storage Systems, Adv. Energy Mater., 13 (2023) 2300149.

[9] H. Zhang, J. Peng, L. Li, Y. Zhao, Y. Gao, J. Wang, Y. Cao, S. Dou, S. Chou, Low‐Cost Zinc Substitution of Iron‐Based Prussian Blue Analogs as Long Lifespan Cathode Materials for Fast Charging Sodium‐Ion Batteries, Adv. Funct. Mater., 33 (2022) 2210725.

[10] H. Zhang, Y. Gao, M. Chen, L. Li, L. Li, Y. Qiao, W. Li, J. Wang, S.L. Chou, Organic Small Molecules with Electrochemical-Active Phenolic Enolate Groups for Ready-to-Charge Organic Sodium-Ion Batteries, Small Methods, 6 (2022) 2200455.

[11] H. Zhang, Y. Gao, X.H. Liu, Z. Yang, X.X. He, L. Li, Y. Qiao, W.H. Chen, R.H. Zeng, Y. Wang, S.L. Chou, Organic Cathode Materials for Sodium‐Ion Batteries: From Fundamental Research to Potential Commercial Application, Adv. Funct. Mater., 32 (2021).

[12] H. Zhang, W. Sun, X. Chen, Y. Wang, Few-Layered Fluorinated Triazine-Based Covalent Organic Nanosheets for High-Performance Alkali Organic Batteries, ACS Nano, 13 (2019) 14252-14261.

[13] Y. Gao^#, H. Zhang^#, J. Peng, J. Wang, X. Liu, L. Zhang, Y. Xiao, L. Li, Y. Liu, Y. Qiao, J. Wang, S. Chou*, Structural Modulation of Cu-Mn-Fe Prussian Blue Analogs for Practical Sodium Ion Cylinder Cells, Adv. Mater., (2025) 2417876.

[14] X. Chen^#, H. Zhang^#, J.-H. Liu, Y. Gao, X. Cao, C. Zhan, Y. Wang, S. Wang, S.-L. Chou, S.-X. Dou, D. Cao, Vanadium-Based Cathodes for Aqueous Zinc-Ion Batteries: Mechanism, Design Strategies and Challenges, Energy Storage Mater., 50 (2022) 21-46.

[15] Y. Gao^#, H. Zhang^#, X.H. Liu, Z. Yang, X.X. He, L. Li, Y. Qiao, S.L. Chou, Low‐Cost Polyanion‐Type Sulfate Cathode for Sodium‐Ion Battery, Adv. Energy Mater., 11 (2021) 2101751.

[16] X. Chen^#, H. Zhang^#, C. Ci, W. Sun, Y. Wang, Few-Layered Boronic Ester Based Covalent Organic Frameworks/Carbon Nanotube Composites for High-Performance K-Organic Batteries, ACS Nano, 13 (2019) 3600-3607.

[17] X. Chen^#, H. Zhang^#, P. Yan, B. Liu, X. Cao, C. Zhan, Y. Wang, J.H. Liu, Bipolar Fluorinated Covalent Triazine Framework Cathode with High Lithium Storage and Long Cycling Capability, RSC Adv., 12 (2022) 11484-11491.

[18] X. Chen^#, H. Zhang^#, P. Yan, X. Cao, C. Zhan, J.-H. Liu, Flower-Like Metal Oxide Composite as an Efficient Sulfur Host for Stable and High-Capacity Lithium-Sulfur Batteries, J. Solid State Chem., 314 (2022) 123430.

[19] X. Chen, H. Zhang^#, Y. Gao^#, J.H. Liu, X. Cao, C. Zhan, S. Wang, J. Wang, S.X. Dou, D. Cao, Zinc‐Ion Hybrid Supercapacitors: Design Strategies, Challenges, and Perspectives, Carbon Neutralization, 1 (2022) 159-188.

[20] X. Yang, J. Peng, L. Zhao, H. Zhang, J. Li, P. Yu, Y. Fan, J. Wang, H. Liu, S. Dou, Insights on advanced g‐C₃N₄ in energy storage: Applications, challenges, and future, Carbon Energy, 6 (2024) e490.

[21] Z.G. Liu, J. Zhao, H. Yao, X.X. He, H. Zhang, Y. Qiao, X.Q. Wu, L. Li, S.L. Chou, P-doped spherical hard carbon with high initial coulombic efficiency and enhanced capacity for sodium ion batteries, Chem. Sci., 15 (2024) 8478-8487.

[22] X. Liu, J. Zhao, H. Dong, L. Zhang, H. Zhang, Y. Gao, X. Zhou, L. Zhang, L. Li, Y. Liu, S. Chou, W. Lai, C. Zhang, S. Chou, Sodium Difluoro(oxalato)borate Additive‐Induced Robust SEI and CEI Layers Enable Dendrite‐Free and Long‐Cycling Sodium‐Ion Batteries, Adv. Funct. Mater., (2024) 2402310.

[23] J.Y. Li, H.Y. Hu, H.W. Li, Y.F. Liu, Y. Su, X.B. Jia, L.F. Zhao, Y.M. Fan, Q.F. Gu, H. Zhang, W.K. Pang, Y.F. Zhu, J.Z. Wang, S.X. Dou, S.L. Chou, Y. Xiao, Interfacial Spinel Local Interlocking Strategy Toward Structural Integrity in P3 Oxide Cathodes, ACS Nano, 18 (2024) 12945-12956.

[24] Y. Gao, H. Zhang, J. Peng, L. Li, Y. Xiao, L. Li, Y. Liu, Y. Qiao, S.L. Chou, A 30‐year overview of sodium‐ion batteries, Carbon Energy, 6 (2024) e464.

[25] Y. Zhao, J. Peng, K. Chen, L. Luo, H. Chen, H. Zhang, S. Chou, X. Feng, W. Chen, R. Cao, X. Ai, Y. Fang, Y. Cao, Boosting the sodium storage performance of Prussian blue analogues via effective etching, Sci. China Chem., 66 (2023) 3154-3160.

[26] Y. Liu, S. Fan, Y. Gao, Y. Liu, H. Zhang, J. Chen, X. Chen, J. Huang, X. Liu, L. Li, Y. Qiao, S. Chou, Isostructural Synthesis of Iron‐Based Prussian Blue Analogs for Sodium‐Ion Batteries, Small, 19 (2023) 2302687.

[27] J.-Q. Huang, R. Du, H. Zhang, Y. Liu, J. Chen, Y.-J. Liu, L. Li, J. Peng, Y. Qiao, S.-L. Chou, Low-cost Prussian blue analogues for sodium-ion batteries and other metal-ion batteries, Chem. Commun., 59 (2023) 9320-9335.

[28] R. Zeng, Y. Wu, S. Qian, L. Li, H. Zhang, Q. Chen, Y. Luo, S.L. Chou, Graphene-Supported Naphthalene-Based Polyimide Composite as a High-Performance Sodium Storage Cathode, ACS Appl. Mater. Inter., 14 (2022) 11448-11456.

[29] J. Peng, Y. Gao, H. Zhang, Z. Liu, W. Zhang, L. Li, Y. Qiao, W. Yang, J. Wang, S. Dou, S. Chou, Ball Milling Solid-State Synthesis of Highly Crystalline Prussian Blue Analogue Na_2-xMnFe(CN)₆ Cathodes for All-Climate Sodium-Ion Batteries, Angew. Chem. Int. Ed., 61 (2022) e202205867.

[30] X.H. Liu, J. Peng, W.H. Lai, Y. Gao, H. Zhang, L. Li, Y. Qiao, S.L. Chou, Advanced Characterization Techniques Paving the Way for Commercialization of Low‐Cost Prussian Blue Analog Cathodes, Adv. Funct. Mater., 32 (2022) 2108616.

[31] X.H. Liu, W.H. Lai, J. Peng, Y. Gao, H. Zhang, Z. Yang, X.X. He, Z. Hu, L. Li, Y. Qiao, M.H. Wu, H.K. Liu, A NASICON‐Typed Na₄Mn_0.5Fe_0.5Al(PO₄)₃ Cathode for Low‐Cost and High‐Energy Sodium‐Ion Batteries, Carbon Neutralization, 1 (2022) 49-58.

[32] X.-X. He, J.-H. Zhao, W.-H. Lai, Z. Yang, Y. Gao, H. Zhang, Y. Qiao, L. Li, S. Chou, Challenges and Applications of Flexible Sodium Ion Batteries, Materials Lab, 1 (2022) 1-24.

[33] X. Chen, X. Hu, Y. Chen, X. Cao, Y. Huang, H. Zhang, J.-H. Liu, Y. Wang, S.-L. Chou, D. Cao, Ultrastable Hydrated Vanadium Dioxide Cathodes for High-Performance Aqueous Zinc Ion Batteries with H⁺/Zn²⁺ Co-Insertion Mechanism, J. Mater. Chem. A, 10 (2022) 22194-22204.

[34] R.R. Li, Z. Yang, X.X. He, X.H. Liu, H. Zhang, Y. Gao, Y. Qiao, L. Li, S.L. Chou, Binders for Sodium-Ion Batteries: Progress, Challenges and Strategies, Chem. Commun., 57 (2021) 12406-12416.

[35] X.-X. He, X.-H. Liu, Z. Yang, H. Zhang, L. Li, G. Xu, Y. Qiao, S.-L. Chou, M. Wu, Research Progress of Flexible Sodium-Ion Batteries Derived from Renewable Polymer Materials, Electrochem. Commun., 128 (2021) 107067.

[36] C. Wu, J. Wang, J. Li, H. Zhang, S. Sharma, L. Titheridge, C. Tiffin, Y. Fan, L. Zhao, W. Yang, Z. Li, J. Peng, J. Wang, A.T. Marshall, Achieving High OER Performance by Tuning the Co/Mn Content in Prussian Blue Analogues, ACS Appl. Mater. Interfaces, 16 (2024) 58703-58710.

[37] Y. Gao, X. Zhang, H. Zhang, J. Peng, W. Hua, Y. Xiao, X.-H. Liu, L. Li, Y. Qiao, J.-Z. Wang, C. Zhang, S. Chou, Zero-Waste Polyanion and Prussian Blue Composites toward Practical Sodium-Ion Batteries, Adv. Mater., 37 (2025) 2409782.

[38] Z. Zheng, X. Fang, W. Deng, P. Li, X. Zheng, H. Zhang, L. Li, S. Chou, Y. Chen, Y. Tang, J. Wang, Quantitatively Detecting and Characterizing Metallic Lithium in Lithium-based Batteries, Energy Environ. Sci., 17 (2024) 9051-9092.

[39] L.F. Zhou, J.Y. Li, J. Peng, L.Y. Liu, H. Zhang, Y.S. Wang, Y. Fan, J.Z. Wang, T. Du, Advanced characterization techniques for phosphate cathodes in aqueous rechargeable zinc‐based batteries, Carbon Energy, 6 (2024) e611.

研究团队长期招收材料合成和电化学相关背景的研究生和博士后（博后待遇优厚），课题组与国内外知名高校和科研机构保持紧密合作关系，鼓励并支持课题组成员进行科研交流或继续深造。

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