基本信息

姓    名：郑益锋

性    别：男

出生年月：1983年3月

籍    贯：浙江丽水

职    称：教授、硕导

电子邮箱：zhengyifeng@njtech.edu.cn

办公地点：润德楼B201

学缘与工作经历

2023/05-至今，苏州国家实验室（双聘），研究员

2022/08-至今，南京工业大学，教授

2016/07-2022/07，南京工业大学，副教授

2016/04-2017/04，新加坡南洋理工大学，访问学者

2015/04-2016/06，南京工业大学，讲师

2013/08-2015/03，中国科学院宁波材料技术与工程研究所, 助理研究员

2011/07-2013/07，中国科学院宁波材料技术与工程研究所, 博士后

2006/09-2011/06，南京工业大学，研究生/博士

2002/09-2006/06，南京工业大学，本科生/学士

教学与科研简介

主要研究领域

长期从事1、固体氧化物燃料电池（SOFC）材料，2、高温电解（SOEC）水/CO₂制备氢气/合成气材料，3、阴离子交换膜电解水制氢材料，4、轻质隔热陶瓷等研究。

人才项目

江苏省第七期“333高层次人才培养工程”第三层次。

教学及科研项目

承担本科生的《无机非金属材料生产设备》、《先进无机非金属材料》和研究生的《特种陶瓷》等课程教学。

近年来，作为项目负责人承担了国家自然科学基金面上项目和青年项目、浙江省重点科技创新团队课题（2项）、中国博士后科学基金面上资助（二等）、浙江省博士后科研项目择优资助（一等）及多项企业横向项目等。作为主要研究人员参与了国家实验室项目、国家863项目、科技部国际合作专项、中国科学院院长基金项目、中国科学院知识创新重要方向性项目等。

在Small、Journal of Materials Chemistry A、Chemical Engineering Journal、Journal of Power Sources、Energy、Separation and Purification Technology、Journal of CO2 Utilization等期刊上发表一百余篇SCI论文，申请发明专利十余项。

成果简介

高水平代表性论文（近五年）

[1] B.Qian, P.K.Shan, H.Ye, L.Ge, H.Chen, J.Yang*, Y.F.Zheng*, S.Cui,Achieving Fast Reconstruction of Metal/Ruddlesden-Popper Layered Perovskite Heterointerfaces via Structural Flexibility-Driven Phase Transition Engineering for Efficient and Durable CO2 Electrolysis,Small,2025, 21:e08777.

[2] H.Ye, Z.P.Miao, Y.F.Fu, P.K.Shan, B.Qian, L.Ge,H.Chen, Y.F.Zheng*, S.Cui*,Chlorine-anion doping enhances the metal-oxygen covalency of Bi0.5Sr0.5FeO3-δ air electrode: achieving superior catalytic activity for reversible solid oxide cells,Chemical Engineering Journal,2025,524:169403.

[3] C.S.Yuan, D.W.Feng, H.Ye, P.K.Shan, L.Ge,H.Chen,Y.F.Zheng*,S,Cui,B-site high valence cation co-doping boosts fast oxygen kinetics in a cobalt-free perovskite air electrode for reversible solid oxide cells,Journal of Materials Chemistry A, 2025, 13: 32562–32576.

[4]B.Qian, D.Zhang, P.K.Shan, H.Ye,Y.F.Zheng*,An active and robust La0.75Sr0.25Cr0.5Mn0.5O3-based fuel electrode coated with in situ grown nanoparticles via electron conduction and oxygen exchange enhancements for solid oxide electrolysis cells,Journal of Materials Chemistry A, 2025, 13: 16092–16101.

[5]J.X.Yan, X.K.Yi, W.Zhao, Y.F.Zheng*,Nonmetallic Phosphorus-Driven Oxygen Vacancy and ElectronicStructure Modulation Enhancing Bifunctional Catalytic Activity ofCobalt-Based Spinel Air Electrode for Rechargeable Zn−Air Batteries,ACS Applied Materials & Interfaces, 2025,17:47057–47069.

[6]B.Yang, L.Wang, B.Yin, H.Chen*, Y.F.Zheng*,Ultra-low solid content porous alumina ceramics with high strength prepared from stable wet foam,Ceramics International, 2025,51:53223–53231.

[7]W.Zhao , J.X.Yan , C.Zhu , G.W.Zhuang , Y.F.Zheng*,Reduced graphene aerogel anchored with MnCo2O4.5 spinel byself-assembly technique to boost bifunctional catalytic activity forzinc-air batteries,International Journal of Hydrogen Energy, 2025, 123: 1–10.

[8]P.K.Shan, H.Ye, Z.P.Chen, B.Qian, C.Zhou, H.Yang*,Y.F.Zheng*,Anionic engineering of the Ruddlesden-Popper oxide La2NiO4+δ: Targetedenhancement of the electrocatalytic activity of air electrodes via chemicalfluorination for solid oxide electrolysis cells,Journal of Power Sources,2025,642:236940.

[9]J.Y.Qi, C.S.Yuan, H.Ye, P.K.Shan, S.Q.Li, S.C.He,H.Chen, L.Ge, Y.F.Zheng*,Tailoring the catalytic activity of PrBaFe2O5+δ cathode material withnon-transition metal In-doping for solid oxide fuel cells,Journal of the European Ceramic Society,2025,45:117057.

[10]H.Ye, Y.X.Feng, P.K.Shan, B.Qian, L.Ge, H.Chen, Y.F.Zheng*,Anionic and cationic co-doping to enhance the oxygen transport property of Bi0.5Sr0.5FeO3-δ as a high-performance air electrode for reversible solid oxide cells,Chemical Engineering Journal, 2024,499:156105.

[11]S.Wang, P.K.Shan, B.Qian, Y.F.Zheng*,Sulfur poisoning on the La0.75Sr0.25Cr0.5Mn0.5O3-δ-Gd0.1Ce0.9O2-δ fuel electrode for direct electrochemical CO2 reduction in solid oxide electrolysis cells,Journal of Power Sources, 2024,592:233930.

[12]B.Yang,B.Yin,H.Chen,Y.F.Zheng*,Corrosion resistance of insulating refractories for thesynthesis of lithium-ion battery LiCoO2 cathode materials,International Journal of Applied Ceramic Technology,2024, 22:e14948.

[13]Z.F.Li, H.Ye, P.K.Shan, Q.Ni, L.Sun, Y.F.Zheng*,A novel family of W-doped Bi0.5Sr0.5FeO3-δ perovskite as oxygen electrodecatalyst for CO2 electrolysis in solid oxide electrolysis cells,Fuel,2024,358:130381.

[14] B.Qian, S.Wang, Y.F.Zheng*, Q.Ni, H.Chen, L.Ge, J.Yang*, Ca-Fe co-doped La0.75Sr0.25Cr0.5Mn0.5O3 cathodes with high electrocatalytic activity for direct CO2 electrolysis in solid oxide electrolysis cells,Journal of CO2 Utilization,2023,67:102305.

[15]Z.F.Li, B.Yang, B.Qian, S.Wang, Y.F.Zheng*, L.Ge, H.Chen,Evaluation of Fe-doped Pr1.8Ba0.2NiO4 as a high-performance air electrode for reversible solid oxide cell,Separation and Purification Technology, 2023,308:123002.

授权代表性发明专利

[1]一种高强度高孔隙率多孔陶瓷及其制备方法，ZL202110284412.2

[2]一种防返碱铝硅系浇注料及其制备方法，ZL202210947506.8

[3]一种气水混合装置和一种气水联供系统，ZL201210583649.1.

[4]一种密封材料及其制备方法，ZL201310648652.1.

[5]一种固体氧化物燃料电池堆生产和测试装置，ZL201310385899.9.

[6]平板式固体氧化物燃料电池系统，ZL201310566142.X.

[7]一种线切割用碳化硅微粉的提纯净化工艺，ZL200910033202.5.