姓名：崔英粤

职称：讲师

教育与工作经历：

2025.01-至今，河南大学能源科学与技术学院，讲师

2020.09-2024.06，中国科学院大学过程工程研究所，化学工程，博士

2017.09-2020.06，河北工业大学，材料物理与化学，硕士

2013.09至2017.06，河南师范大学，功能材料，学士

研究领域：

锂硫电池催化材料设计、锂硫浆料电池关键技术研究、锂离子电池高压电解液开发、固态聚合物电解质开发

代表性论文：

已发表（或正式接受）的学术论文：

[1] Yingyue Cui, Wenhao Fang, Junping Zhang, Jin Li, Hui Wu, Zhe Sun, Yingjun Cai^*, Haitao Zhang^*, Suojiang Zhang^*. Controllable sulfur redox multi-pathway reactions regulated by metal-free electrocatalysts anchored with LiS₃^* radicals. Nano Energy, 2024, 122: 109343.

[2] Yingyue Cui, Jin Li, Yingjun Cai^*, Haitao Zhang^*, Suojiang Zhang^*. Robust Electrocatalytic Li₂S Redox of Li-S Batteries Facilitated by Rationally Fabricated Dual-Defects. Small, 2022, 18: 2204183.

[3] Yingyue Cui, Jin Li, Xuedi Yuan, Jiaxin Liu, Haitao Zhang, Hui Wu, Yingjun Cai^*. Emerging strategies for gel polymer electrolytes with improved dual-electrode side regulation mechanisms for lithium-sulfur batteries. Chemistry-An Asian Journal, 2022, 17: e202200746.

[4] Yingyue Cui, Yanlei Wang, Shijie Gu, Cheng Qian, Tianhua Chen, Shimou Chen^*, Jianling Zhao^*, Suojiang Zhang^*. An effective interface-regulating mechanism enabled by non-sacrificial additives for high-voltage nickel-rich cathode. Journal of Power Sources, 2020, 453: 227852.

[5] Yong Chen, Yingyue Cui, Simeng Wang, Ying Xiao, Jin Niu, Jiajia Huang, Feng Wang, Shimou Chen^*. Durable and adjustable interfacial engineering of polymeric electrolytes for both stable Ni-Rich cathodes and high-energy metal anodes. Advanced Materials, 2023, 35: 2300982.

[6] Shijie Gu, Yingyue Cui, Kaihua Wen, Shimou Chen, Jianling Zhao. 3-cyano-5-fluorobenzenzboronic acid as an electrolyte additive for enhancing the cycling stability of Li_1.2Mn_0.54Ni_0.13Co_0.13O₂ cathode at high voltage. Journal of Alloys and Compounds, 2020, 829: 154491.

[7] Jin Li, Yingjun Cai, Yingyue Cui, Hui Wu, Haoran Da, Yijun Yang, Haitao Zhang^*, Suojiang Zhang^*. Fabrication of asymmetric bilayer solid-state electrolyte with boosted ion transport enabled by charge-rich space charge layer for -20~70℃ lithium metal battery. Nano Energy, 2023, 118: 108985.

[8] Jin Li, Haitao Zhang, Yingyue Cui, Haoran Da, Yingjun Cai^*, Suojiang Zhang^*. Constructing interfacial gradient layers and enhancing lithium salt dissolution kinetics for high-rate solid-state batteries. Nano Energy, 2022, 102: 107716.

[9] Jin Li, Haitao Zhang, Yingyue Cui, Haoran Da, Yingjun Cai^*, Suojiang Zhang^*. Ultra-stable high voltage lithium metal batteries enabled by solid garnet electrolyte surface-engineered with a grafted aromatics layer. Chemical Engineering Journal, 2022, 450: 138457.

[10] Jin Li, Haitao Zhang, Yingyue Cui, Haoran Da, Hui Wu, Yingjun Cai^*, Suojiang Zhang^*. Constructing robust cathode/Li interfaces and intensifying ion transport kinetics for PEO-based solid-state lithium-sulfur batteries. Chemical Engineering Journal, 2022, 454: 140385.

[11] Lili Liu, Weiqun Gao, Yingyue Cui, Shimou Chen^*. A bifunctional additive bi(4-flurorophenyl) sulfone for enhancing the stability and safety of nickel-rich cathode based cells. Journal of Alloys and Compounds, 2020, 820: 153069.

[12] Xuedi Yuan, Tao Dong, Jiaxin Liu, Yingyue Cui, Haotian Dong, Du Yuan, Haitao Zhang^*. Bi-affinity electrolyte optimizing high-voltage lithium-rich manganese oxide battery via interface modulation strategy. Angewandte Chemie International Edition, 2023, 62: e2304121.

[13] Jiaxin Liu, Tao Dong, Xuedi Yuan, Yingyue Cui, Yawei Liu, Chao Chen, Hongyun Ma, Chang Su, Haitao Zhang^*, Suojiang Zhang^*. Exceptional li-Rich Mn-based cathodes enabled by robust interphase and modulated solvation microstructures via anion synergistic strategy. Advanced Energy Materials, 2023, 13: 2300680.

[14] Jin Li, Yingjun Cai, Fengjie Zhang, Yingyue Cui, Wenhao Fang, Haoran Da, Haitao Zhang^*, Suojiang Zhang^*. Exceptional interfacial conduction and LiF interphase for ultralong life PEO-based all-solid-state batteries. Nano Energy, 2023, 95: 107027.

[15] Jin Li, Feng Huo, Yaxi Yang, Tianhua Chen, Yingyue Cui, Yingjun Cai^*, Haitao Zhang^*. Constructing stable lithium interfaces via coordination of fluorinated ether and liquid crystal for room-temperature solid-state lithium metal batteries. Chemical Engineering Journal, 2021, 433: 133562.

主持科研项目：

[1] 多电子反应机制下高比能锂硫浆料电池的关键技术研究（河南省科技攻关），2025.01-2026.12