人员队伍详细资料

阮秋实

发布时间:2026年03月25日 02时27分

 基 本 信 息

姓名:阮秋实

性别:

党派:

职称:副教授

联系方式:ruanqs@seu.edu.cn

研究方向:

光电催化、光电化学储能、光增强离子电池

 个 人 简 介

阮秋实,2014年本科毕业于上海交通大学,2020年博士毕业于英国伦敦大学学院(UCL),师从唐军旺教授,2020年入职欢迎公海来到赌船710担任讲师,2025年任副教授,属于孙正明课题组成员。主要研究方向包括:光电催化、光电化学储能、光增强离子电池。在Journal of the American Chemical Society, Chem, Angewandte Chemie, Advanced Materials, Advanced Energy Materials等高影响力学术期刊上发表论文30余篇。主持国自然面上项目、青年项目,宝钢横向课题等,获江苏省双创博士、南京市优秀归国留学人员、欢迎来到公海7108线路至善学者项目支持。

代表成果:

[1] Nan J., You Y., Zha W., Xia L., Ruan, Q.*, & Sun ZM.*(2026) Light-Induced NH4+ Deprotonation Drives NH4+/H+ Hybrid Storage Toward Near-Theoretical Capacity in NH4V4O10 Electrodes[J]. Journal of the American Chemical Society, 148(1): 1347–1355.

[2] Zha W, Ruan, Q.* Yang M, Huang J., Sun L., Sun ZM.*, Tao L.*(2026) Photoinduced Proton‐Cation Cascade Boosting Ion Intercalation Dynamics in Photo‐Assisted Zinc‐Ion Batteries[J]. Angewandte Chemie International Edition, 2026, 65(1): e22461.

[3] Zha, W., Ruan, Q.*, Ma, L., Liu, M., Lin, H., Sun, L., Sun, ZM.*, & Tao, L.* (2024) Highly Stable Photo‐Assisted Zinc‐Ion Batteries via Regulated Photo‐Induced Proton Transfer[J]. Angewandte Chemie International Edition, 136(15): e202400621.

[4] Ma, L., Ruan, Q.*, Zha, W., Kong, L., & Sun, ZM.* (2024). Irradiation Spillover Effect in Photo-Assisted Ion Batteries: Overcoming Size Limits for Solar Utilization. Advanced Energy Materials,14(11): 2303586.

[5] Ruan, Q.*, Xi, X., Yan, B., Kong, L., Jiang, C.*, Tang, J., & Sun, ZM.* (2023). Stored photoelectrons in a faradaic junction for decoupled solar hydrogen production in the dark. Chem,9(7): 1850-1864.

[6] Kong, L., Ruan, Q.*, Qiao, J., Chen, P., Yan, B., He, W., Zhang, W., Jiang, C., Lu, C.*, & Sun, ZM.* (2023). Realizing Unassisted Photo‐Charging of Zinc–Air Batteries by Anisotropic Charge Separation in Photoelectrodes. Advanced Materials,35(46), 2304669.

[7] Ruan, Q., Miao, T., Wang, H., & Tang, J*. (2020). Insight on shallow trap states-introduced photocathodic performance in n-type polymer photocatalysts. Journal of the American Chemical Society,142(6), 2795-2802.

[8] Ruan, Q., Luo, W., Xie, J., Wang, Y., Liu, X., Bai, Z., Carmalt, C. J., & Tang, J.* (2017). A nanojunction polymer photoelectrode for efficient charge transport and separation. Angewandte Chemie International Edition,56(28), 8221-8225.






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