1、 科研项目: (1) 装备预研教育部联合基金, *******,主持,2023.10-2025.10 (2) 国家自然科学基金青年基金,基于硫自由基捕获的多功能粘结剂设计制备及其锂硫电池性能提高机理研究,主持,2021.01-2023.12 (3) 天津市自然科学基金面上基金,多重氟基聚合物电解质在宽温域锂电池中的应用及界面特性研究,主持,2023.10-2026.09 (4) 天津市自然科学基金青年基金,多硫离子自由基的捕获及其对锂硫电池界面稳定性及电化学性能影响机制研究,主持,2020.04-2022.03 (5) 博士后科学基金,基于多硫离子自由基捕获的多功能粘结剂的设计制备与电池性能提高机理的研究,主持,2020.03-2021.07 2、论文、专著:近期代表作,限10篇(部) [1] Y. Zhang, Z.K. Wang, Y.R. Pan, H. Yu, Z.H. Li, C. Li, S. Wang, Y. Ma*, X.X. Shi, H.Z. Zhang, D.W. Song, L.Q. Zhang*. Tailoring multi-system adaptable gel polymer electrolyte for realization of carbonate ester and ether-based Li-SPAN batteries. Energy & Environmental Science (2024) 10.1039/d3ee04556k. [2] Q.F. Sun, S. Wang, Y. Ma*, D.W. Song, H. Z. Zhang, X. X. Shi, N. Zhang, L. Q. Zhang*. Li-ion transfer mechanism of gel polymer electrolyte with sole fluoroethylene solvent. Advanced Materials 35 (2023) 2300998. [3] S. Wang, Q. F. Sun, Q. Zhang, C. Li, C. R. Xu, Y. Ma*, X.X. Shi, H. Z. Zhang, D. W. Song*, L.Q. Zhang*. Li-Ion Transfer Mechanism of Ambient-Temperature Solid Polymer Electrolyte toward Lithium Metal Battery. Advanced Energy Materials 13 (2023) 2204036. [4] C Li, Q. F. Sun, Q. Zhang, C.R. Xu, S. Wang, Y. Ma*, X.X. Shi, H.Z. Zhang*, D.W. Song, L. Q. Zhang. Multifunctional binder capable of promoting the reaction dynamics of wide temperature operable lithium-sulfur battery. Chemical Engineering Journal 455 (2023) 140706. [5] Q.F. Sun, S. Wang, Y. Ma*, Y. Zhou, D.W. Song, H.Z. Zhang, X.X. Shi, C.L. Li, L.Q. Zhang*. Fumaronitrile-fixed in-situ gel polymer electrolyte balancing high safety and superior electrochemical performance for Li metal batteries. Energy Storage Materials 44 (2022) 537-546. [6] S. Wang, Q.F. Sun, Y. Ma*, Z.Y. Wang, H.Z. Zhang, X.X. Shi, D.W. Song*, L.Q. Zhang, L.Y. Zhu. Dual in situ polymerization strategy endowing rapid ion transfer capability of polymer electrolyte toward Ni-rich based lithium metal batteries. Small Methods 6 (2022) 202200258. [7] Y. Ma, Q.F. Sun, S. Wang, Y. Zhou, D.W. Song*, H.Z. Zhang, X.X. Shi, L.Q. Zhang*. Li salt initiated in-situ polymerized solid polymer electrolyte: new insights via in-situ electrochemical impedance spectroscopy. Chemical Engineering Journal 429 (2022) 132483. [8] S. Wang, Q.F. Sun, W.X. Peng, Y. Ma*, Y. Zhou, D.W. Song, H.Z. Zhang, X.X. Shi, C.L. Li, L.Q. Zhang*. Ameliorating the interfacial issues of all-solid-state lithium metal batteries by constructing polymer/inorganic composite electrolyte. Journal of Energy Chemistry 58 (2021) 85-93. [9] Y. Ma, K. Chen, J. Ma, G.J. Xu, S.M. Dong, B.B. Chen, J.D. Li, Z. Chen, X.H. Zhou, G.L. Cui. A free radical scavenger based biomass binder for stabilizing the interface of 5V lithium-ion battery. Energy & Environmental Science 12 (2019) 273-280. [10] Y Ma, J Ma, G L Cui. Small things make big deal: Powerful binders of lithium batteries and post-lithium batteries. Energy Storage Materials 20 (2019) 146-175.
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