许东明，中共党员，博士毕业于中南大学，师从潘安强教授、常智教授。主要从事电池材料开发与储能器件构筑方面的研究，具体包括锂/钠电负极材料开发、功能电解液设计、锌金属负极保护等。主持基金项目2项，在国内外知名学术期刊发表SCI论文30余篇，包括Angew. Chem. Int. Ed., Adv. Mater.(*2), Energy Environ. Sci., Adv. Sci., Adv. Energy Mater., Adv. Funct. Mater., Energy Storage Mater. 等，其中IF＞10论文12篇，论文被引 1000 余次。授权专利1项。曾在国家重点研发计划、国家重点项目及校企联合横向项目中作为主要参与人开展研究工作。

主持项目：

湖北省自然科学基金-青年基金项目，阳离子仿生通道构筑及其在锌电池中的应用研究（2025.3-2027.02）

参与项目：

国家重点研发计划项目，低成本，高比能，长寿命大规模储能二次电池新系统研发（2020.01-2024.12）

国家自然科学基金面上项目，高容量多孔合金负极材料结构稳定化设计及其增强储钠性能研究（2019.01-2022.12）

湖南省自然科学基金杰出青年基金，全固态锂离子电池钒基电极材料优化设计及其电化学性能研究（2020.10-2022.09）

校企横向合作项目，钠离子电池正极及其前驱体开发（2022.08-2027.08）

学术代表作：

1. D. Xu, Z. Wang, C. Liu, H. Li, F. Ouyang, B. Chen, W. Li, X., L. Bai, Z. Chang*, A. Pan*, H. Zhou*. Water Catchers Within Sub-Nano Channels Promote Step-by-Step Zinc-Ion Dehydration Enable Highly Efficient Aqueous Zinc-Metal Batteries. Adv. Mater., 2024, 36, 202403765. (SCI一区, IF: 32.0)

2. D. Xu, X. Ren, Y. Zhou, S. Chai, Y. Chen, H. Li, L. Bai, Z. Chang*, A. Pan* and H. Zhou*. Chelating Additive Regulating Zn-Ion Solvation Chemistry for Highly Efficient Aqueous Zinc-metal Battery. Angew. Chem. In. Ed., 2024, 63, e202402833. (VIP, Highly Cited Paper, SCI一区, IF: 16.6)

3. D. Xu, B. Chen, X. Ren, C. Han, Z. Chang*, A. Pan* and H. Zhou*, Selectively Etching-off Highly Reactive (002) Zn Facet Enable Highly Efficient Aqueous Zinc-metal Batteries. Energy Environ. Sci., 2023, 17, 642-654. (Hot Paper, SCI一区, IF: 39.5)

4. D. Xu, X. Ren, Y. Xu, Y. Wang, S. Zhang, B. Chen, Z. Chang*, A. Pan* and H. Zhou*. Highly Stable Aqueous Zinc Metal Batteries Enabled by an Ultrathin Crack-Free Hydrophobic Layer with Rigid Sub-Nanochannels. Adv. Sci., 2023, 27, 2303773. (SCI一区, IF: 15.1)

5. L. Pei¹, D. Xu¹, Y. Luo*, S. Guo, D. Liu, S. Jiang, W. Zhang, F. Cao*. Zinc Single‐Atom Catalysts Encapsulated in Hierarchical Porous Bio‐Carbon Synergistically Enhances Fast Iodine Conversion and Efficient Polyiodide Confinement for Zn‐I₂ Batteries.  Adv. Mater., 2024, https://doi.org/10.1002/adma.202420005. (SCI一区, IF: 32.0)

6. D. Xu¹, R. Chen¹, B. Chen, S. Zhou, Y. Zhang, Z. Chang* and A. Pan*, High-performance Flexible Sodium-ion Batteries Enabled by High-voltage Sodium Vanadium Fluorophosphate Nanorod Arrays. Sci. China Mater., 2023, 66, 3837-3845. (SCI二区, IF: 8.1)

7. H. Wang*, D. Xu, R. Qiu, S. Tang, S. Li, R. Wang, B. He, Y. Gong, H. J. Fan*. Aligned Arrays of Na₂Ti₃O₇ Nanobelts and Nanowires on Carbon Nanofiber as High- Rate and Long-Cycling Anodes for Sodium-Ion Hybrid Capacitors. Small Structures, 2021, 2, 2000073. (SCI二区, IF: 15.9)

8. D. Xu, H. Wang*, R. Qiu, Q. Wang, Z. Mao, Y. Jiang, R. Wang, B. He, Y. Gong, D. Li, X. Hu*. Coupling of Bowl-like VS₂ Nanosheet Arrays and Carbon Nanofiber Enables Ultrafast Na⁺-Storage and Robust Flexibility for Sodium-ion Hybrid Capacitors. Energy Storage Mater., 2020, 28, 91-100. (SCI一区, IF: 20.4)

9. H. Wang*, D. Xu, G. Jia, Z. Mao, Y. Gong, B. He, R. Wang, H. J. Fan*. Integration of Flexibility, cyclability and High-capacity into One Electrode for Sodium-ion Hybrid Capacitors with Low Self-discharge Rate. Energy Storage Mater., 2020, 25, 114-123. (SCI一区, IF: 20.4)

10. D. Xu, H. Wang*, F. Li, Z. Guan, R. Wang, B. He, Y. Gong, X. Hu*. Conformal Conducting Polymer Shells on V₂O₅ Nanosheet Arrays as a High-Rate and Stable Zinc-Ion Battery Cathode. Adv. Mater. Interfaces, 2019, 2, 1801506. (SCI三区, IF: 6.4)

11. D. Xu¹, D. Chao¹, H. Wang*, Y. Gong, R. Wang, B. He, X. Hu*, H. J. Fan*. Flexible Quasi-Solid-State Sodium-Ion Capacitors Developed Using 2D Metal-Organic-Framework Array as Reactor. Adv. Energy Mater., 2018, 18, 1702769. (Highly Cited Paper, SCI一区, IF: 27.8)