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科学研究

科研简介 研发中心 研发团队 科研安全管理 博士生培养计划
王庆

教育背景
1997,哈尔滨工业大学,电化学,工学学士
1999,哈尔滨工业大学,应用化学,工学硕士
2002,中科院物理研究所,物理学,博士
 
 
工作经历
2002.12-2006.8 瑞士联邦理工(EPFL),博士后研究助理
2006.9-2008.2  美国可再生能源国家实验室,博士后研究员
2008.3-2014.6  新加坡国立大学,助理教授
2014.7-至今   新加坡国立大学,副教授
 
 
研究领域
能量转换和储存体系中的介观电荷传输研究,特别在纳米晶光电化学体系中的电荷转移动力学。近年来在新加坡国立研究基金会的资助下,提出并发展了基于氧化还原靶向反应的液流电池,用于高能量密度的大规模能量储存。
 
Redox electrochemistry for energy storage and conversion.
Redox flow X-batteries (X denotes different battery chemistries).
Sensitized mesoscopic photoelectrochemical cells for low cost solar energy harnessing.
 
 
荣誉、奖项
2018, NRF Investigatorship, National Research Foundation, Singapore
2014, Engineering Young Researcher Award, Faculty of Engineering, National University of Singapore
 
 
代表性论文
[1] Single-Molecule Redox-Targeting Reactions for a pH-Neutral Aqueous Organic Redox Flow Battery. M. Zhou, Y. Chen, M. Salla, H. Zhang, X. Wang, S. R. Mothe, Q. Wang, Angew. Chem. Int. Ed., 2020, 59 (34), 14286-14291.
[2] Redox Targeting-based TREC Flow Cell for Enhanced Low-grade Heat Harnessing. H. Zhang, F. Zhang, J. Yu, M. Zhou, W. Luo, Y. M. Lee, M. Si, and Q. Wang, Adv. Mater., (2020) accepted.
[3] A Stable and High Capacity Redox Targeting-based Electrolyte for Aqueous Flow Batteries. Chen, Y.; Zhou, M.; Xia, Y.; Wang, X.; Liu, Y.; Yao, Y.; Zhang, H.; Li, Y.; Lu, S.; Qin, W.; Wu, X.; Wang, Q., Joule, 2019, 3, 2255-2267.
[4] A Redox Targeting-based Materials Recycling Strategy for Spent Lithium Ion Batteries. Yu, J.; Wang, X.; Zhou, M; Wang, Q., Energy & Environ. Sci., 2019, 12, 2672-2677.
[5] Redox-Targeting-Based Flow Batteries for Large-Scale Energy Storage. Yan, R.; Wang, Q., Adv. Mater., 2018, 30, 1802406.
[6] Redox-targeted catalysis for vanadium redox-flow batteries. Zhang, F., Huang, S., Wang, X., Jia, C., Du, Y., & Wang, Q., Nano Energy, 2018, 52, 292-299.
[7] Redox Targeting of Prussian Blue: Towards Low-cost and High-energy Density Redox Flow Battery and Solar Rechargeable Battery. Fan, L.; Jia, C.; Zhu, Y.G.; Wang, Q., ACS Energy Lett., 2017, 2, 615-621.
[8] Unleashing the Power and Energy of LiFePO4-based Redox Flow Lithium Battery with a Bi-functional Redox Mediator. Zhu, Y. G.; Du, Y.; Jia, C.; Zhou, M.; Fan, L.; Wang, X.; Wang, Q., J. Am. Chem. Soc., 2017, 139, 6286–6289.
[9] Nernstian Potential-driven Redox Targeting Reactions of Battery Materials. Zhou, M.; Huang. Q.; Truong, T. N. P.; Ghilane, J.; Zhu, Y. G.; Jia, C.; Yan, R.; Fan, L.; Randriamahazaka, H.; Wang, Q., Chem, 2017, 3 (6), 1036-1049.
 
专利
1. Q. Wang and J. Yu, A Lithium Ion Battery Materials Recycling Method, PCT Application No.: PCT/SG2019/050523
2. Q. Wang and C. Jia, A Condensed Phase Aqueous Redox Flow Battery, PCT Application No.: PCT/SG2018/050471.
3. Q. Wang and Y. G. Zhu, A Gas Diffusion Tank Design for Redox Flow Metal-Air Batteries, US Provisional Patent Application No. 62/095,525.
4. Q. Wang and Y. G. Zhu, A REDOX FLOW METAL-AIR BATTERY SYSTEM, US Provisional Application No. 62/037,698.
5. Q. Wang and Q. Huang, A Redox Flow Battery system. Pub. No.: WO 2013/012391.
 
个人简介:https://cde.nus.edu.sg/mse/staff/wang-qing/