所属学科：新能源、材料、化学
职称：讲师
电子邮箱：lilanyan@hutb.edu.cn
研究领域：电池材料、催化、无机材料、理论与计算化学
掌握的外国语：英语
学历：工学博士
教育背景：
2018.08－2022.06，湘潭大学，应用化学，博士；
2011.09－2014.06，武汉工程大学，材料学，硕士；
2007.09－2011.06，武汉工程大学，高分子材料与工程，学士。
工作经历：
2022.07 至今，zoty中欧官方网站；
2014.07 -2018.03，中车株洲时代新材料科技股份有限公司。
研究方向：
新能源材料的理论计算；
无机材料的催化、性能及机理研究。
主持科研课题：  

1. 国家自然科学基金青年科学基金项目（C类），基于SQS与机器学习耦合法探索稳定高效的高熵氧化物OER催化剂，No. 22503030，在研，主持；  

2. 湖南省教育厅优秀青年项目，4H、HCP和 FCC构型的金纳米团簇的结构演化及性质研究，No. 23B0603，结题，主持；  

3. 长沙市自然科学基金项目，高熵氧化物在锂离子电池正极材料中的研究，No. kq2402094，结题，主持。

主要论文：  

1. Weak-interaction ether-based electrolyte towards stable operation of low-temperature sodium-ion batteries. Journal of Energy Storage, 2026.（IF=9.8，中科院1区，JCR 1区）  

2. PtCo Nanoparticles Confined in N, P, and S Codoped Porous Carbon for Ultralong Solid-State Zn-Air Batteries. ACS Sustaninable Chemistry & Engineering, 2026.（IF=7.3，中科院1区，JCR 1区）  

3. Sustainable Upcycling of Industrial By-Products Into High-Rate and Stable Sulfate-Based Cathode for Sodium-Ion Batteries. Small, 2026.（IF=12.1，中科院区2区，JCR 1区）  

4. Ultrathin Pd based bimetallic nanowires as highly efficient ampere-level pH-universal water splitting. Chinese Chemical Letters, 2026.（IF=8.9，中科院1区，JCR 1区）  

5. Ag⁺-Mediated Structural Reconstruction of a Metastable Cu35 Cluster Toward Cu-Ag Heterometallic Architectures for Superior Electrocatalytic CO2-to-Ethanol Conversion. Angewandte Chemie International Edition, 2025. （IF=16.9，中科院1区，JCR 1区）  

6. Modulating interfacial Zn2+ deposition mode towards stable Zn anode via bimetallic co-doped coating. Energy Storage Materials, 2024.（IF=20.2，中科院1区，JCR 1区）  

7. Phase-coexisting heterojunction transformation from residual nickel in entropy-regulated high‑nickel cathode materials. Chemical Engineering Journal, 2025. （IF=13.2，中科院1区，JCR 1区）  

8. Ligand-engineered octanuclear bismuth-oxo clusters with exposed active sites for enhanced CO2-to-HCOOH electroreduction. Chinese Chemical Letters, 2025. （IF=8.9，中科院1区，JCR 1区）  

9. Co-operative Interaction of Multiple Ions for P2-Type Sodium-Ion Battery Cathodes at High-Voltage Cyclability. ACS Applied Energy Materials, 2025. （IF=5.5，中科院3区，JCR 2区）  

10. Hierarchical Assembly of High-Nuclearity Copper(I) Alkynide Nanoclusters: Highly Effective CO2 Electroreduction Catalyst toward Hydrocarbons. Journal of the American Chemical Society, 2024. （IF=15.6，中科院1区，JCR 1区）  

11. Copper oxide-modified highly reversible Zn powder anode for aqueous Zn metal batteries. Rare Metals, 2024. （IF=11.0，中科院1区，JCR 1区）  

12. Ag1+ Incorporation via Zr4+-Anchored Metalloligand: Fine-Tuning the Catalytic Ag Sites in Zr/Ag Bimetallic Clusters for Enhanced eCO2RR-to-CO activity. Chemical Science, 2024. （IF=8.7，中科院1区，JCR 1区）  

13. In Situ Oxidative Ring-Opening of Calix[8]arene to Construct Stable Bismuth-Oxo Clusters with Exposed Catalytic Sites for Specific Electroreduction of CO2 to HCOOH. Inorganic Chemistry, 2024. （IF=4.7，中科院1区，JCR 1区）  

14. Concentration-Gradient Structural LiFe0.5Mn0.5PO4/C Prepared via Co-precipitation Reaction for Advanced Lithium-Ion Batteries. ChemPhysChem, 2024. （IF=2.3，中科院3区，JCR 2区）  

15. P2-Type Na0.67Ni0.23Fe0.1Mn0.67O2 Cathode Material with Suppressed P2−O2 Phase Transition for Sodium-Ion Batteries. ChemistrySelect, 2024. （IF=2.2，中科院4区，JCR 3区）  

16. Hydrogen bond functionalized massive solvation modules stabilizing bilateral interfaces. Advanced Functional Materials, 2022. （IF=19.0，中科院1区，JCR 1区）  

17. Double bond effects induced by iron selenide as immobilized homogenous catalyst for efficient polysulfides capture. Chemical Engineering Journal, 2021. （IF=13.2，中科院1区，JCR 1区）  

18. Multiple Strategies toward advanced P2-type layered NaxMnO2 for low-cost sodium-ion batteries. ACS Applied Energy Materials, 2021. （IF=5.6，中科院3区，JCR 2区）  

19. A theoretical study of the monolayer-protected gold cluster Au317(SR)110. Nanoscale, 2022. （IF=5.8，中科院3区，JCR 1区）  

20. Mechanism of reduction of gold(I) thiolate oligomers into gold-thiolate nanoclusters. Journal of Physical Chemistry C, 2022. （IF=3.3，中科院3区，JCR 2区）  

21. Thermodynamic descriptors for structural stability and ligand compatibility of thiolate-protected gold nanoclusters. Journal of Physical Chemistry C, 2022. （IF=3.3，中科院3区，JCR 2区）

专利：  

1. 一种镍基层状钠离子电池正极及其制备方法与应用 授权 202510913617.0  

2. 阴离子表面一步法合成聚吡咯-壳聚糖-金属纳米粒子复合膜的方法 授权201110101342.9