Full Name
Feifei Zhang
(not current staff)
 
 
Email
msezf@nus.edu.sg
 

Results 1-12 of 12 (Search time: 0.011 seconds).

Issue DateTitleAuthor(s)
11-Aug-2020A robust anionic sulfonated ferrocene derivative for pH-neutral aqueous flow batteryYu, J; Salla, M ; Zhang, H; Ji, Y; Zhang, F ; Zhou, M; Wang, Q 
224-Dec-2021E-blood: High power aqueous redox flow cell for concurrent powering and cooling of electronic devicesWang, Xun ; Gao, Mengqi; Lee, Yann Mei ; Salla, Manohar ; Zhang, Feifei ; Huang, Songpeng ; Wang, Qing 
315-Apr-2022Membrane fouling in aqueous redox flow batteriesGao, M; Salla, M ; Zhang, F ; Zhi, Y ; Wang, Q 
42022Organic Redox Flow BatteriesZhang, Feifei ; Wang, Qing 
51-Jan-2021Redox Targeting of Energy Materials for Energy Storage and ConversionZhang, F ; Gao, M; Huang, S; Zhang, H; Wang, X ; Liu, L; Han, M; Wang, Q 
61-Dec-2019Redox Targeting-Based Vanadium Redox-Flow BatteryCheng, Yuanhang ; Wang, Xun; Huang, Songpeng ; Samarakoon, Widitha; Xi, Shibo; Ji, Ya; Zhang, Hang; Zhang, Feifei ; Du, Yonghua; Feng, Zhenxing; Adams, Stefan ; Wang, Qing 
716-Jul-2021Redox-Mediated Ambient Electrolytic Nitrogen Reduction for Hydrazine and Ammonia GenerationWang, Xun ; Yang, Jing ; Salla, Manohar ; Xi, Shibo; Yang, Yi; Li, Mengsha ; Zhang, Feifei ; Zhu, Ming-Ke; Huang, Songpeng ; Huang, Shiqiang; Zhang, Yong-Wei ; Wang, Qing 
81-Oct-2022Redox-mediated electrocatalytic and photocatalytic hydrogen productionZhang, F ; Wang, Q 
921-Jan-2022Redox-Mediated Two-Electron Oxygen Reduction Reaction with Ultrafast Kinetics for Zn-Air Flow BatteryHuang, Shiqiang; Zhang, Hang; Zhuang, Jiahao; Zhou, Mingyue; Gao, Mengqi; Zhang, Feifei ; Wang, Qing 
101-Oct-2018REDOX-TARGETED CATALYSIS FOR VANADIUM REDOX-FLOW BATTERIESZhang, F ; Huang, S ; Wang, X; Jia, C ; Du, Y; Wang, Q 
11Sep-2020SILAR-Deposited CuS Electrocatalyst for High Power Polysulfide-based Aqueous Flow BatteryGao, Mengqi; Huang, Songpeng ; Zhang, Feifei ; Lee, Yann Mei ; Huang, Shiqiang; Wang, Qing 
1231-Jul-2020Spatially decoupled hydrogen evolution in alkaline conditions with a redox targeting-based flow batteryJi, Y; Zhang, F ; Zhou, M; Yu, J ; Wang, Q