[46]Yikun Yi, Feng Hai, Jingyu Guo, Xin Gao, Wenting Chen, Xiaolu Tian, Wei Tang,Weibo Hua, and Mingtao Li*. Electrochemical Enhancement of Lithium-Ion Diffusion in Polypyrrole-Modified Sulfurized Polyacrylonitrile Nanotubes for Solid-to-Solid Free-Standing Lithium-Sulfur Cathodes. Small, 2023, 2303781. (IF=13.1)

[45]Wenting Chen , Yikun Yi , Feng Hai , Zhendi Wu , Jingyu Guo , Xiaolu Tian , Xin Gao , Wei Tang , Mingtao Li*. A Flexible and Self-Healing Ionic Gel Electrolyte Based on a Zwitterion (ZI) Copolymer for High-Performance Lithium Metal Batteries. Batteries, 2023, 9(9): 452. (IF=5.938)

[44]Feng Hai, Yikun Yi, Jingyu Guo, Xin Gao, Wenting Chen, Xiaolu Tian, Wei Tang, Mingtao Li*. Indirect regulation of solvation structure in all-ffuorinated electrolyte by introducing carboxylate for stable 5 V battery. Chemical Engineering Journal, 2023, 472: 144993. (IF=15.1)

[43]Yikun Yi, Feng Hai, Jingyu Guo, Xiaolu Tian, Shentuo Zheng, Zhendi Wu, Tao Wang, Mingtao Li*. Progress and Prospect of Practical Lithium-Sulfur Batteries Based on Solid-Phase Conversion. Batteries, 2023, 9(1): 27. (IF=5.938)

[42]田晓录, 易义坤, 海峰, 吴振迪, 郑申拓, 郭靖宇, 李明涛*. 剪切增稠流体在锂离子电池电解质方面的研究进展[J/OL]. 化工进展, 2023. doi:10.16085/j.issn.1000-6613.2022-2355. (中文核心)

[41]Yikun Yi, Feng Hai, Xiaolu Tian, Zhendi Wu, Shentuo Zheng, Jingyu Guo, Wenting Chen, Weibo Hua, Long Qu*, Mingtao Li*. A novel sulfurized polypyrrole composite for high-performance lithium-sulfur batteries based on solid-phase conversion [J]. Chemical Engineering Journal, 2023, 466: 143303. (IF=16.744)

[40]Zhendi Wu, Yikun Yi, Feng Hai, Xiaolu Tian, Shentuo Zheng, Jingyu Guo, Wei Tang, Weibo Hua and Mingtao Li*. A Metal-Organic Framework Based Quasi-Solid State Electrolyte Enabling Continuous Ion Transport for High Safety and High Energy-Density Lithium Metal Batteries. ACS Appl. Mater. Interfaces, 2023, 15(18): 22065-22074. (IF=10.383)

[39]Feng Hai, Xiaolu Tian, Yikun Yi, Zhendi Wu, Shentuo Zheng, Jingyu Guo, Wei Tang, Weibo Hua, Mingtao Li*, A sulfolane-based high-voltage electrolyte with dispersed aggregates for 5 V batteries, Energy Storage Materials, 2023, 54：641-650. (IF=20.831)

[38]Xiaolu Tian, Yikun Yi, Zhendi, Wu, Guangyu Cheng, Shentuo Zheng, Binren Fang, Tao Wang*, Dmitry G. Shchukind, Feng Hai, Jingyu Guo, Mingtao Li*，Ionic liquid confined in MOF/polymerized ionic network core-shell host as a solid electrolyte for lithium batteries，Chemical Engineering Science, 2023, 266:118271. (IF=4.889)

[37]Yikun Yi, Wenbo Huang, Xiaolu Tian, Binren Fang, Zhendi Wu, Shentuo Zheng, Mingtao Li*, and Heping Ma*, Graphdiyne-like Porous Organic Framework as a Solid-Phase Sulfur Conversion Cathodic Host for Stable Li–S Batteries, ACS Applied Materials & Interfaces ,2021,13(50), 59983-59992. (IF=10.383)

[36]Xiaoqian Li, Dongdong Yao, Dechao Wang, Zhongjie He, Xiaolu Tian, Yangyang Xin,Fangfang Su, Hongni Wang, Jing Zhang, Xiaoyang Li *, Mingtao Li*, Yaping Zheng *,Amino-functionalized ZIFs-based porous liquids with low viscosity forefficient low-pressure CO2 capture and CO2/N2 separation,Chemical Engineering Journal,2022,429:132296.(IF=10.65)

[35]Xiaoqian Li , Dechao Wang , Hailong Ning , Yangyang Xin , Zhongjie He , Fangfang Su ,Yudeng Wang , Jing Zhang , Hongni Wang , Liwei Qian, Yaping Zheng*, Dongdong Yao*,Mingtao Li*,An electrostatic repulsion strategy construct ZIFs based liquids with permanent porosity for efficient CO2 capture,Separation and Purification Technology,2021,276:119305.(IF=7.312)

[34]Xiaolu Tian¹, Shuhui Chen¹, Peng Zhang, Pu Yang, Yikun Yi, Te Wang, Binren Fang, Pei Liu,Long Qu, Mingtao Li*, Heping Ma*,Covalent organic frameworks with immobilized anions to liberate lithium ions: Quasi-solid electrolytes with enhanced rate capabilities,Electrochimica Acta,2021,389:138585.(IF=6.901)

[32] Xiaolu Tian, Yikun Yi, Binren Fang, Pu Yang, Te Wang, Pei Liu, Long Qu, Mingtao Li*, and Shanqing Zhang*, Design Strategies of Safe Electrolytes for Preventing Thermal Runaway in Lithium Ion Batteries, Chemistry of Materials, 2020, 32 (23), 9821-9848.(IF=9.6)

[31] 王特，蒋立，田晓录，方彬任，屈龙，李明涛*，锂离子电池安全材料的研究进展，化工进展, 2020，40（6）:3132-3142.(中文核心)

[30] Binren Fang, Xiaolu Tian, Te Wang, Tao Wang, Long Qu and Mingtao Li*, Restraining Polysulfide with High-Entropy Metal Nitride towards Long Cycle Life and High Capacity Li-S Batteries, ChemElectroChem, 2020, 7, 4737-4744. (IF=4.154)

[29] Pu Yang, Xiangwen Gao, Xiaolu Tian, Chengyong Shu, Yikun Yi, Pei Liu, Te Wang, Long Qu, Bingbing Tian, Mingtao Li*, Wei Tang*, Bolun Yang, John B. Goodenough*, Upgrading Traditional Orgainc Electrolytes toward Future Lithium Metal Batteries: A Hierarchical Nano-SiO2-Supported Gel Polymer Electrolyte, ACS Energy Letters, 2020, 5, 1681-1688. (IF=16.3)

[28] Pei Liu, Long Qu*, Xiaolu Tian,  Yikun Yi, Jiexiang Xia*, Te Wang, Jianzhong Nan, Pu Yang, Wei Tang, Yanfeng Zhang, Mingtao Li*, Ti3C2Tx/Graphene Oxide Free-Standing Membranes as Modified Separators for Lithium-Sulfur Batteries with Enhanced Rate Performance, ACS Applied Energy Materials, 2020, 3, 2708-2718. 

[27] Long Qu, Pei Liu, Xiaolu Tian, Chengyong Shu, Yikun Yi, Pu Yang, Te Wang, Binren Fang, Mingtao Li*, Bolun Yang, VN/S Nanoclusters Encapsulated with Graphene via ZetaPotential Control: A Pomegranate-Like Cathode for Lithium-Sulfur Batteries with Enhanced Rate Performance, ChemElectrochem, 2020, 7, 1679-1688. (IF=3.9)

[26] Xiaolu Tian, Pu Yang, Yikun Yi, Pei Liu, Te Wang, Chengyong Shu, Long Qu, Wei Tang, Yanfeng Zhang, Mingtao Li*, Bolun Yang, Self-healing and high strtchable polymer electrolytes based on ionic bonds with high conductivity for lithium batteries, Journal of Power Sources, 2020, 450, 227629. (IF=7.4)

[25] Yikun Yi⁺, Hua An⁺, Peng Zhang, Xiaolu Tian, Pu Yang, Pei Liu, Te Wang, Long Qu, Mingtao Li*, Guidong Yang*, Bolun Yang, Oxygen Deficiency Driven Conversion of Polysulfide by Electrocatalysis: MoO3-x Nanobelts for an Improved Lithium-Sulfur Battery Cathode, ChemNanoMat, 2019, 5, 926-931. (IF: 3.4)   

[24] Chao Wang, Yikun Yi, Hongping Li, Peiwen Wu, Mingtao Li*, Wei Jiang, Zhigang Chen, Huaming Li, Wenshuai Zhu*, Sheng Dai*, Rapid Gas-assisted Exfoliation Promises V2O5 nanosheets for high Performance Lithium-sulfur Batteries, Nano Energy, 2020, 67, 104253. (IF: 15.5)

[23] Yikun Yi, Zechen Liu, Pu Yang, Tao Wang, Xuewen Zhao, Hongyang Huang, Yonghong Cheng, Jinying Zhang*, Mingtao Li*,  MoS2 nanorods with inner caves through synchronous encapsulation of sulfur for high performance Li-S cathodes, Journal of Energy Chemistry, 2020, 45, 18-24. (IF: 5.1)

[22] Yuenan Zheng, Yikun Yi, Meihong Fan, Hanyu Liu, Xue Li, Rui Zhang, Mingtao Li*, Zhen-An Qiao*, A High-Entropy Metal Oxide as Chemical Anchor of Polysulfide for Lithium-Sulfur Batteries，Energy Storage Materials， 2019, 23, 678-683.(Cite Score : 15.9)

[21] Yikun Yi, Hongping Li, Honghong Chang, Pu Yang, Xiaolu Tian, Pei Liu, Long Qu, Mingtao Li*,  Bolun Yang, Huaming Li, Wenshuai Zhu * and Sheng Dai *, Few-Layer Boron Nitride with Engineered Nitrogen Vacancies for Promoting Conversion of Polysulfide as a Cathode Matrix for Lithium-Sulfur Batteries, Chemistry - A European Journal, 2019, 25, 8112-8117. (IF: 5.2)

[20] Xiaolu Tian, Yikun Yi, Pu Yang, Pei Liu, Long Qu, Mingtao Li*, Yong-sheng Hu*, Bolun Yang, High-Charge Density Polymerized Ionic Networks Boosting High Ionic Conductivity as Quasi-Solid Electrolytes for High-Voltage Batteries, ACS Appl. Mater. Interfaces, 2019, 11, 4001−4010. (IF: 8.1)

[19] Wei Wu, Yikun Yi, Tao Wang, Tunan Gao, Qisheng Huo, Shuyan Song, Mingtao Li*, Zhen-An Qiao*, Coordination-Self-Assembly Approach toward Aggregation-Free Metal Nanoparticles in Ordered Mesoporous Carbons, ChemElectroChem, 2019, 6, 724-730. (IF: 4.4)

[18] Long Qu, Pei Liu, Yikun Yi, Tao Wang, Pu Yang, Xiaolu Tian, Mingtao Li*, Bolun Yang, Sheng Dai*, Enhanced Cycling Performance for Lithium–Sulfur Batteries by a Laminated 2D g-C3N4/Graphene Cathode Interlayer, ChemSusChem, 2019,12,213–223. (IF: 7.4)

[17] Long Qu, Pei Liu, Peng Zhang, Tao Wang, Yikun Yi, Pu Yang, Xiaolu Tian, Mingtao Li*, Bolun Yang, Carbon-nanotube/sulfur cathode with in-situ assembled Si3N4/graphene interlayer for high-rate and long cycling-life lithium-sulfur batteries, Electrochimica Acta, 2019, 296, 155-164. (IF: 5.1)

[16] Li Mingtao, W. Zhu, P. Zhang, Y. Chao, Q. He, B. Yang, H. Li, A. Borisevich, S. Dai, Graphene-Analogues Boron Nitride Nanosheets Confining Ionic Liquids: A High-Performance Quasi-Liquid Solid Electrolyte, Small, 2016, 12, 3535-3542.（IF: 8.3）

[15] Zhang Pengfei, Li Mingtao*, Yang Bolun, Y. Fang, X. Jiang, G.M. Veith, X.-G. Sun, S. Dai*, Polymerized Ionic Networks with High Charge Density: Quasi-Solid Electrolytes in Lithium-Metal Batteries, Advanced Materials, 2015, 27, 8088-8094. （IF: 17.2）

[14] Wang Lu, Du Tingting, Cheng Jin, Xie Xing, Yang Bolun*, Li Mingtao*, Enhanced activity of urea electrooxidation on nickel catalysts supported on tungsten carbides/carbon nanotubes, Journal of Power Sources, 280 (2015) 550-554. （IF: 6.2）

[13] Wang Lu, Li Mingtao, Huang Zhiyu, Li Yingming, Qi Suitao, Yi Chunhai, Yang Bolun*, Ni–WC/C nanocluster catalysts for urea electrooxidation, Journal of Power Sources, 264 (2014) 282-289. （IF: 6.2）

[12] Li Mingtao*, Wang Lu, Yang Bolun, Du Tingting, Zhang Ying, Facile preparation of polymer electrolytes based on the polymerized ionic liquid poly((4-vinylbenzyl)trimethylammonium bis(trifluoromethanesulfonylimide)) for lithium secondary batteries, Electrochimica Acta, 123 (2014) 296-302. （IF: 4.5）

[11] Li Mingtao*, Wang Lu, Du Tingting, Preparation of polymer electrolytes based on the polymerized imidazolium ionic liquid and their applications in lithium batteries, Journal of Applied Polymer Science, 131 (2014) 40928-40935.

[10] Zhang Zhan, Salih Alsamani A. M., Li Mingtao, Yang Bolun*, Synthesis and Characterization of Functionalized Ionic Liquids for Thermal Storage, Energy & Fuels, 28 (2014) 2802-2810.

[9] Li Mingtao*, Yang Bolun, Wang Lu, Zhang Ying, Zhang Zhan, Fang Shaohua, Zhang Zhengxi, New polymerized ionic liquid (PIL) gel electrolyte membranes based on tetraalkylammonium cations for lithium ion batteries, Journal of Membrane Science, 447 (2013) 222-227. （IF: 5.3）

[8] Li Mingtao*, Yang Bolun, Zhang Zhan, Wang Lu, Zhang Ying, Polymer gel electrolytes containing sulfur-based ionic liquids in lithium battery applications at room temperature, Journal of Applied Electrochemistry, 43 (2013) 515-521.

[7] 张应, 李明涛, 杨伯伦*, 基于量子化学计算的BH4-水解制氢反应机理研究, 化学学报, 71 (2013) 769-773.

[6] Li Mingtao, Yang Li*, Fang Shaohua, Dong Siming, Shin-ichi Hirano, Kazuhiro Tachibana, Polymeric ionic liquids (PILs) with guanidinium cations moiety and its application in lithium polymer battery as host for polymer gel electrolytes, Polymer International, 61, (2012), 259-264. （IF: 2.8）

[5] Li, Mingtao, Yang Li* , Fang Shaohua, Dong Siming, Li/LiFePO4 batteries with polymer gel electrolytes incorporating a guanidinium-based ionic liquid cycled at room temperature and 50℃, Journal of Power Sources, 196, (2011), 1502-1506. （IF: 6.2）

[4] Li Mingtao, Yang Li*, Fang Shaohua, Dong Siming, Shin-ichi Hirano, Kazuhiro Tachibana, Polymer electrolytes containing guanidinium-based polymeric ionic liquids for rechargeable lithium batteries, Journal of Power Sources, 196, (2011), 8662-8668. （IF: 6.2）

[3] Li, Mingtao, Yang Li*, Fang Shaohua, Dong Siming, Novel polymeric ionic liquid membranes as solid polymer electrolytes with high ionic conductivity at moderate temperature, Journal of Membrane Science, 366, (2011), 245-250.  （IF: 5.3）

[2] Li Mingtao, Qiufeng An*, Film morphology and orientation of N-cyclohexyl-γ-aminopropylpolydimethylsiloxane, Surface and Interface Analysis, 40, (2008), 914-918.

[1] Li Mingtao, Qiufeng An*, Synthesis of N-β-aminoethyl-γ-aminopropyl Polydimethyl-co-polydiphenylsiloxaneand Its Film Morphology and Orientation, Journal of Applied Polymer Science, 111, (2008), 2715-2719.