2019/7 -至今，九江学院，化学化工学院，副教授（破格）、教授（破格）

2021/7- 2023/6，北京化工大学，化学工程学院，博士后（获博士后创新人才支持计划），导师：曹达鹏杰青、教授

2014/8 - 2016/7，黔南民族师范学院，化学化工学院，讲师（破格）

2013/7 - 2014/6，东莞锂威能源科技有限公司，项目部，工程师

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 主持项目

[1]国家自然科学基金(40万，202101-202412，在研）

[2]江西省”千人计划”人才（100万，202301-202512，在研）

[3]江西省自然科学基金面上项目（10万，202307-202606，在研）

[4]江西省自然科学基金青年项目（10万，202301-202512，在研）

[5]第6批博士后创新人才支持计划（63万，202107-202306，结题）

[6]九江市“双百双千”学术学科带人项目（15万，202101-202312，结题）

[7]九江市高层次科技创新人才项目（10万，202101-202212，结题）

[8]有机无机复合材料国家重点实验室基金（10万，202201-202312，结题）

[9]博士后第70批面上项目（8万，202111- 202207，结题）

[10]江西省教育厅科技项目重点项目（5万，202201- 202212，结题）

[11]江西省教育厅科技一般项目（3万，201901-202012，结题）

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 代表性论文（以第一作者或通讯作者）

[1]Metal organic framework-based cathode materials for aqueous zinc-ion batteries: Recent advances and perspectives.Energy Storage Materials, 2024, 65, 103168. (中科院SCI一区，高被引论文)

[2]Highly efficient separation of Sc³⁺and Y³⁺in acid solution by a graphene oxide membrane with interlayer sieving.Journal of Rare Earths, 2024, DOI:10.1016/j.jre. 2024.02.017. (中科院SCI一区)

[3]Boosting potassium and sodium-ion storage performance by in-situ self-assembly of a Co-based π-d conjugated coordination polymer on graphene nanosheets.Journal of Energy Storage, 2024, 91,112111.(中科院SCI二区)

[4]Trimetallic-Organic Framework-Derived Ni-Doped MnO/PC as Cathodes for High-Performance Aqueous Zinc-ion Batteries.Chemical Engineering Journal, 2023, 478(15), 147411.（中科院SCI一区）

[5]In-situ synthesis of Cu-based conductive metal organic frameworks on graphene layers for high-performance lithium and potassium ion batteries.Applied Surface Science, 2023, 624, 157124.（中科院SCI一区）

[6]Designing TM-N2O2Cx Single Atom Catalysts for Electrocatalytic CO₂Reduction.Science China Materials,2023, 66, 2741-2749.（中科院SCI二区）

[7]Synergistic H⁺/Zn²⁺co-insertion mechanism in vanadium trioxide composited on carbon nanotubes cathode for aqueous zinc ion batteries.Journal of Alloys and Compounds, 2023, 945, 169271.（中科院SCI二区）

[8]Construction of single-atom catalysts for N,O synergistic coordination and application to electrocatalytic O₂reduction.Molecules, 2023, 28(21), 7264.（中科院SCI二区）

[9]Vanadium-based cathodes for aqueous zinc-ion batteries: Mechanism, design strategies and challenges.Energy Storage Materials, 2022, 50, 21-46.（中科院SCI一区，高被引论文）

[10]Ultrastable Hydrated Vanadium Dioxide Cathodes for High-Performance Aqueous Zinc Ion Batteries with H^+/Zn²⁺Co-insertion Mechanism.Journal of Materials Chemistry A,2022, 10(41), 22194-22204. (中科院SCI一区)

[11]Long-Life Superlithiation of Few-Layered Covalent Organic NanosheetsviaGraphene Quantum Dots/Carbon Nanotubes Stabilized Three-Dimensional Architecture.Journal of Materials Chemistry A,2022, 10(40), 21701-21715.(中科院SCI一区)

[12]Recent Progress and Design Principles for Rechargeable Lithium Organic Batteries.Electrochemical Energy Reviews, 2022, 5(4), 12.(中科院SCI一区)

[13] Zinc-ion hybrid supercapacitors: Design strategies, challenges, and perspectives.Carbon Neutralization, 2022, 1, 159-188. (高水平新期刊)

[14]Selective Lithium Deposition on 3D Porous Heterogeneous Lithiophilic Skeleton for Ultrastable Lithium Metal Anodes.ChemNanoMat, 2020, 6, 1200-1207.（中科院SCI二区）

[15]Covalent Organic Frameworks for Next-Generation Batteries.ChemElectroChem, 2020, 7(19), 3905-3926.（中科院SCI二区）

[16]High Lithium Affinity Chemically-Exfoliated 2D Covalent Organic Frameworks.Advanced Materials,2019, 31(29), 1901640.（中科院SCI一区，高被引论文）

[17]Few-Layered Boronic Ester based Covalent Organic Frameworks/Carbon Nanotube Composites for High-Performance K-Organic Batteries.ACS Nano,2019, 13(3), 3600-3607.（中科院SCI一区，高被引论文）

[18]Covalent Organic Framework derived Boron/Oxygen co-doped Porous Carbon on CNTs as an Efficient Sulfur Host for Lithium-Sulfur Batteries.Small Methods, 2019, 3(11), 1900338. (中科院SCI一区)