左银泽,工学博士,上海市“超级博士后”,硕士生导师,主要从事新能源储能电池电极及催化材料合成方法学研究,新能源储能电池表界面构建及其在充放电过程中原位检测及理论模拟研究,以及新能源电池放大化生产的研究。目前在Advanced Energy Materials、Nano Energy、Energy Storage Materials、Carbon Energy、Journal of Materials Chemistry A、Chemical Engineering Journal、Journal of Power Sources等国际期刊发表论文20余篇。授权专利10余项。2021年国际“互联网+”大学生创新创业大赛省级铜奖(参赛选手);2023年,国际“互联网+”大学生创新创业大赛省级金奖(指导老师)。联系邮箱:yinzezuo@fzu.edu.cn
学习经历:
2018-2021, 南京大学, 现代工程与应用科学学院, 博士
2015-2018,江苏科技大学,37000.cσm威尼斯,硕士
2011-2015,黑龙江工程学院,材料与化学工程学院, 学士
工作经历:
2021-2023,上海大学,理学院,博士后 (合作导师:张久俊 院士)
2023年7月起,37000.cσm威尼斯37000.cσm威尼斯,新能源材料与工程研究院,教师
主要研究方向:
1、纳米催化剂合成方法学研究;
2、硫基电池正极、隔膜材料改性与转化机制的研究;
3、碱金属表面改性与反应机制的研究;
4、电化学储能器件原位反应过程验证及工程制备;
5、电化学储能过程中构效关系的理论计算。
获奖和荣誉:
1、江苏科技大学优秀研究生、毕业生
2、江苏科技大学优秀毕业论文
3、南京大学优秀研究生
4、南京大学固体微结构物理国家重点实验室优秀成果奖
5、上海市“超级博士后”
6、国际“互联网+”大学生创新创业大赛省级铜奖(2021)、金奖(2023)
科研成果:
[1] Yinze Zuo, Meng Zhao, Peijia Ren, Weiming Su, Jian Zhou, Yanbin Chen, Yuefeng Tang*, Yanfeng Chen, An efficient polysulfide trapper of an nitrogen and nickel-decorating amylum scaffold-coated separator for ultrahigh performance in lithium-sulfur batteries. Journal of Materials Chemistry A, 2020, 8: 1238-1246.
[2] Yinze Zuo, Yuejin Zhu, Qi Wang, Kezhong Lv, Weiming Su, Yuefeng Tang*, Yanfeng Chen, Promoting polysulfide conversion by catalytic separator with LiNiPO4 and rGO hybrids for high performance Li-S batteries. Journal of Materials Chemistry A, 2020, 8: 20111-20121.
[3] Yinze Zuo, Yuejin Zhu, Ruchao Wan, Weiming Su, Ye Fan, Ruiping Liu, Yuefeng Tang*, Yanfeng Chen, The electrocatalyst based on LiVPO4F/CNT to enhance the electrochemical kinetics for high performance Li-S batteries. Chemical Engineering Journal, 2021, 415: 129053.
[4] Yinze Zuo, Yuejin Zhu, Xinsong Tang, Meng Zhao, Peijia Ren, Weiming Su, Yuefeng Tang*, Yanfeng Chen, MnO2 supported on acrylic cloth as functional separator for high-performance lithium-sulfur batteries[J]. Journal of Power Sources, 2020, 464: 228181.
[5] Yinze Zuo, Tao Yan, Yuejin Zhu, Jian Zhou, Weiming Su, Xingling Shi, Yuefeng Tang*, Yanfeng Chen, MnO2 nanoflowers grown on a polypropylene separator for use as both a barrier and an accelerator of polysulfides for high-performance Li-S batteries[J]. Dalton Transactions, 2020, 49: 9719.
[6] Yinze Zuo, Peijia Ren, Meng Zhao, Weiming Su, Yanbin Chen, Yuefeng Tang*, Yanfeng Chen, Stable lithium-sulfur batteries with high sulfur content fabricated by ultralight ochroma lagopus-derived carbon with dopamine shell as sulfur host. Journal of Alloys and Compounds, 2020, 819: 152995.
[7] Yuejin Zhu†, Yinze Zuo† (equal authors), Fan Ye, Jian Zhou, Yuefeng Tang*, Yanfeng Chen, Dual-regulation strategy to enhance electrochemical catalysis ability of NiCo2O4-x for polysulfides conversion in Li-S batteries. Chemical Engineering Journal, 2022, 428, 131109.
[8] Weiming Su, Ruchao Wan, Yue Liang, Yinze Zuo*, Yuefeng Tang*, A novel 3D porous pseudographite/Si/Ni composite anode material fabricated by a facile method. Dalton Transactions, 2020, 49: 7166.
[9] Hui Zheng, Jianyi Wang, Hongwei Li, Shuqi Deng, Yinze Zuo*, Wei Yan*, Jiujun Zhang*, Constructing a novel heterostructure of NiSe2/CoSe2 nanoparticles with boosted sodium storage properties for sodium-ion batteries, Journal of Materials Chemistry A, 2022,10, 16268-16279.
[10] Yuejin Zhu†, Yinze Zuo†*, Xuechao Jiao, Revanasiddappa Manjunatha, Ejikeme Raphael Ezeigwe, Wei Yan*, Jiujun Zhang*, Selective sulfur conversion with surface engineeringof electrocatalysts in a lithium–sulfur battery, Carbon Energy, 2023;5:e249.
[11] Xiang Li†, Yinze Zuo†(equal authors), Yongzheng Zhang*, Jian Wang, Yanli Wang*, Huimei Yu, Liang Zhan*, Licheng Ling, Zhiguo Du, Shubin Yang*, Controllable sulfurization of MXenes to in-plane multi-heterostructures for efficient sulfur redox kinetics, Advanced Energy Materials, 2024, 2303389.
[12] Xuechao Jiao, Jun Hu, Yinze Zuo*, Jing Qi, Wei Yan*, Jiujun Zhang*, Self-recovery catalysts of ZnIn2S4@In2O3 heterostructures with multiple catalytic centers for cascade catalysis in lithium-sulfur battery, Nano Energy, 2024, 119, 109078.
[13] Miaomiao Zhou, Ji Shen, Yang Duan, Yinze Zuo*, Zhiwei Xing, Ruiping Liu*, The Le Chatelier's principle enables closed loop regenerating ternary cathode materials for spent lithium-ion batteries, Energy Storage Materials, 2024, 67, 103250.
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