袁帅


    姓名:袁帅

    职务/职称:副院长/研究员

    邮箱:s.yuan@shu.edu.cn

    电话:+086-021-66132793


    研究领域:

    (1)高性能电极材料、膜材料及固体电解质材料

    (2)微纳结构材料的电荷传输/转移行为

    (3)高安全、高能量密度电化学储能器件


    教育与工作经历:

    1995.8-1999.6 湖南大学 化工工艺 本科/学士

    1999.7-2002.6 湖南大学 应用化学 研究生/硕士

    2002.7-2005.6 华东理工大学 应用化学 研究生/博士

    2005.7-2006.8 大阪大学 访问学者

    2006.9-2008.3永利 讲师

    2008.4-2014.3永利 副研究员

    2015.9-2015.10 丹麦技术大学 (EPF7 Marie Curie 项目访学)

    2013.4-至今 永利 研究员

    2020.10-至今 材料复合及先进分散技术教育部工程研究中心副主任

    2021.10-至今 yl6809永利副院长

    学术职务

    2021-至今 Research on Chemical Intermediates国际编委

    2018-至今 上海市颗粒学会理事会秘书长

    2018-至今 中国颗粒学会青年理事


    代表性科研项目:

    1. 高比能有机无机复合正极材料的构筑及其储锂机制(23ZR1423600),上海市科委,负责人

    2. 中白高校科技成果转化创新服务平台建设(19640770300),上海市科委,负责人

    3. 全固态锂离子电池有机无机复合涂层隔膜设计开发及应用,上海市科委(15DZ1201002),负责人

    4. 染料敏化太阳能电池光电极界面栅栏构筑及界面电荷转移机制 (51472154) ,国家自然科学基金委员会,负责人

    5. 基于三维导电网格的染料敏化太阳能电池及其载流子传输机制研究(51202138),国家自然科学基金委员会,负责人


    代表性学术论文:

    [1] Kexin Liu, Hui Cheng, Zhuyi Wang*, Yin Zhao, Yingying Lv, Liyi Shi, Xuesong Cai, Zhongling Cheng, Haijiao Zhang*, Shuai Yuan*. A 3 μm-Ultrathin Hybrid Electrolyte Membrane with Integrative Architecture for All-Solid-State Lithium Metal Batteries. Advanced Energy Materials, 2024, 202303940.

    [2] Yifan Wang ,Ning Wang , Yong Wu , Preeyaporn Poldorn, Zhuyi Wang*, Siriporn Jungsuttiwong, Liyi Shi , Yingying Lv, Yin Zhao, Shuai Yuan*. Synergetic Coupling of Hydrogen-Bond Bridge and Multielectron Redox towards Stable and Efficient Lithium Storage. Energy Storage Materials, 2024, 67, 103317.

    [3]Min Zhang, Kexin Liu,Yichen Gan, Helin Wang, Fu Liu, Miao Bai, Xiaoyu Tang, Zhiqiao Wang, Shaowen Li, Ahu Shao, Kefan Zhou, Tianyu Wang, Zhuyi Wang, Shuai Yuan*, Yue Ma *. Boosting the temperature adaptability of lithium metal batteries via a moisture/acid purified, ion-diffusion accelerated separator. Advanced Energy Materials, 2022, 2201390.

    [4]Yifan Wang, Preeyaporn Poldorn, Yutthana Wongnongwa, Siriporn Jungsuttiwong, Chong Chen, Le Yu, Zhuyi Wang *, Liyi Shi, Yin Zhao, Shuai Yuan*. Cobalt(II)-hexaazatriphenylene hexacarbonitrile coordination compounds based cathode materials with high capacity and long cycle stability. Advanced Functional Materials,2022, 2111043.

    [5]Wang Yifan , Qiao Zelong, Liu Kexin, Yu Le, Lv Yingying , Shi Liyi, Zhao Yin, Cao Dapeng, Wang Zhuyi*, Wang Shitao*, Yuan Shuai*. High-rate organic cathode constructed by iron-hexaazatrinaphthalene tricarboxylic acid coordination polymer for Li-ion batteries. Advanced Science, 2022, 2205069.

    [6] Yongxiang Su, Yingying Lv*, Mohammad Reza Habibipour, Kexin Liu, Ali Esfandiar, Zhuyi Wang, Yin Zhao, Liyi Shi, Guorong Chen, Alena A. Nevar, Shuai Yuan*. Dynamic stable interface between CNT and nanosilicon for robust anode with large capacity and high rate performance. Energy Storage Materials, 2023,102892.

    [7] Yongxiang Su, Xin Feng, Ruibing Zheng, Yingying Lv*, Zhuyi Wang, Yin Zhao, Liyi Shi, Shuai Yuan*. Binary network of conductive elastic polymer constraining nanosilicon for a high-performance lithium-ion battery. ACS Nano, 2021, 2021,15(9),14570–14579.

    [8] Kyeong-Seok Oh, Jung-Hui Kim, Se-Hee Kim, Dongrak Oh, Sun-Phil Han, Kwangeun Jung, Zhuyi Wang, Liyi Shi, Yongxiang Su, Taeeun Yim*, Shuai Yuan*, Sang-Young Lee*. Single‐Ion conducting soft electrolytes for semi‐solid lithium metal batteries enabling cell fabrication and operation under ambient conditions. Advanced Energy Materials, 2021, 202101813.

    [9] Wenyu Zhao, Miao Bai, Shaowen Li, Xiaoyu Tang, Weiwei Wu, Changchun Sun, Xiaokang Yin, Jie Zhou, Shuai Yuan*, Yue Ma*. Integrated thin film battery design for flexible lithium ion storage: optimizing the compatibility of the current collector‐free electrodes. Advanced Functional Materials, 2019, 29(43), 1903542.

    [10] Minging Chi, Liyi Shi, Zhuyi Wang, Jiefang Zhu, Xufeng Mao, Yin Zhao, Meihong Zhang, Lining Sun, Shuai Yuan*.Excellent rate capability and cycle life of Li metal batteries with ZrO2/POSS multilayer-assembled PE separators. Nano Energy. 2016, 28,1-11.


    (最后更新日期:2024.04.17)

    袁帅


      姓名:袁帅

      职务/职称:副院长/研究员

      邮箱:s.yuan@shu.edu.cn

      电话:+086-021-66132793


      研究领域:

      (1)高性能电极材料、膜材料及固体电解质材料

      (2)微纳结构材料的电荷传输/转移行为

      (3)高安全、高能量密度电化学储能器件


      教育与工作经历:

      1995.8-1999.6 湖南大学 化工工艺 本科/学士

      1999.7-2002.6 湖南大学 应用化学 研究生/硕士

      2002.7-2005.6 华东理工大学 应用化学 研究生/博士

      2005.7-2006.8 大阪大学 访问学者

      2006.9-2008.3永利 讲师

      2008.4-2014.3永利 副研究员

      2015.9-2015.10 丹麦技术大学 (EPF7 Marie Curie 项目访学)

      2013.4-至今 永利 研究员

      2020.10-至今 材料复合及先进分散技术教育部工程研究中心副主任

      2021.10-至今 yl6809永利副院长

      学术职务

      2021-至今 Research on Chemical Intermediates国际编委

      2018-至今 上海市颗粒学会理事会秘书长

      2018-至今 中国颗粒学会青年理事


      代表性科研项目:

      1. 高比能有机无机复合正极材料的构筑及其储锂机制(23ZR1423600),上海市科委,负责人

      2. 中白高校科技成果转化创新服务平台建设(19640770300),上海市科委,负责人

      3. 全固态锂离子电池有机无机复合涂层隔膜设计开发及应用,上海市科委(15DZ1201002),负责人

      4. 染料敏化太阳能电池光电极界面栅栏构筑及界面电荷转移机制 (51472154) ,国家自然科学基金委员会,负责人

      5. 基于三维导电网格的染料敏化太阳能电池及其载流子传输机制研究(51202138),国家自然科学基金委员会,负责人


      代表性学术论文:

      [1] Kexin Liu, Hui Cheng, Zhuyi Wang*, Yin Zhao, Yingying Lv, Liyi Shi, Xuesong Cai, Zhongling Cheng, Haijiao Zhang*, Shuai Yuan*. A 3 μm-Ultrathin Hybrid Electrolyte Membrane with Integrative Architecture for All-Solid-State Lithium Metal Batteries. Advanced Energy Materials, 2024, 202303940.

      [2] Yifan Wang ,Ning Wang , Yong Wu , Preeyaporn Poldorn, Zhuyi Wang*, Siriporn Jungsuttiwong, Liyi Shi , Yingying Lv, Yin Zhao, Shuai Yuan*. Synergetic Coupling of Hydrogen-Bond Bridge and Multielectron Redox towards Stable and Efficient Lithium Storage. Energy Storage Materials, 2024, 67, 103317.

      [3]Min Zhang, Kexin Liu,Yichen Gan, Helin Wang, Fu Liu, Miao Bai, Xiaoyu Tang, Zhiqiao Wang, Shaowen Li, Ahu Shao, Kefan Zhou, Tianyu Wang, Zhuyi Wang, Shuai Yuan*, Yue Ma *. Boosting the temperature adaptability of lithium metal batteries via a moisture/acid purified, ion-diffusion accelerated separator. Advanced Energy Materials, 2022, 2201390.

      [4]Yifan Wang, Preeyaporn Poldorn, Yutthana Wongnongwa, Siriporn Jungsuttiwong, Chong Chen, Le Yu, Zhuyi Wang *, Liyi Shi, Yin Zhao, Shuai Yuan*. Cobalt(II)-hexaazatriphenylene hexacarbonitrile coordination compounds based cathode materials with high capacity and long cycle stability. Advanced Functional Materials,2022, 2111043.

      [5]Wang Yifan , Qiao Zelong, Liu Kexin, Yu Le, Lv Yingying , Shi Liyi, Zhao Yin, Cao Dapeng, Wang Zhuyi*, Wang Shitao*, Yuan Shuai*. High-rate organic cathode constructed by iron-hexaazatrinaphthalene tricarboxylic acid coordination polymer for Li-ion batteries. Advanced Science, 2022, 2205069.

      [6] Yongxiang Su, Yingying Lv*, Mohammad Reza Habibipour, Kexin Liu, Ali Esfandiar, Zhuyi Wang, Yin Zhao, Liyi Shi, Guorong Chen, Alena A. Nevar, Shuai Yuan*. Dynamic stable interface between CNT and nanosilicon for robust anode with large capacity and high rate performance. Energy Storage Materials, 2023,102892.

      [7] Yongxiang Su, Xin Feng, Ruibing Zheng, Yingying Lv*, Zhuyi Wang, Yin Zhao, Liyi Shi, Shuai Yuan*. Binary network of conductive elastic polymer constraining nanosilicon for a high-performance lithium-ion battery. ACS Nano, 2021, 2021,15(9),14570–14579.

      [8] Kyeong-Seok Oh, Jung-Hui Kim, Se-Hee Kim, Dongrak Oh, Sun-Phil Han, Kwangeun Jung, Zhuyi Wang, Liyi Shi, Yongxiang Su, Taeeun Yim*, Shuai Yuan*, Sang-Young Lee*. Single‐Ion conducting soft electrolytes for semi‐solid lithium metal batteries enabling cell fabrication and operation under ambient conditions. Advanced Energy Materials, 2021, 202101813.

      [9] Wenyu Zhao, Miao Bai, Shaowen Li, Xiaoyu Tang, Weiwei Wu, Changchun Sun, Xiaokang Yin, Jie Zhou, Shuai Yuan*, Yue Ma*. Integrated thin film battery design for flexible lithium ion storage: optimizing the compatibility of the current collector‐free electrodes. Advanced Functional Materials, 2019, 29(43), 1903542.

      [10] Minging Chi, Liyi Shi, Zhuyi Wang, Jiefang Zhu, Xufeng Mao, Yin Zhao, Meihong Zhang, Lining Sun, Shuai Yuan*.Excellent rate capability and cycle life of Li metal batteries with ZrO2/POSS multilayer-assembled PE separators. Nano Energy. 2016, 28,1-11.


      (最后更新日期:2024.04.17)

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