Xiaoliang (Shawn) Wei
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Recent progress in redox flow battery research and development
W Wang, Q Luo, B Li, X Wei, L Li, Z Yang
Advanced Functional Materials 23 (8), 970-986, 2013
A total organic aqueous redox flow battery employing a low cost and sustainable methyl viologen anolyte and 4‐HO‐TEMPO catholyte
T Liu, X Wei, Z Nie, V Sprenkle, W Wang
Advanced Energy Materials 6 (3), 1501449, 2016
TEMPO‐based catholyte for high‐energy density nonaqueous redox flow batteries
X Wei, W Xu, M Vijayakumar, L Cosimbescu, T Liu, V Sprenkle, W Wang
Advanced Materials 26 (45), 7649-7653, 2014
Bismuth nanoparticle decorating graphite felt as a high-performance electrode for an all-vanadium redox flow battery
B Li, M Gu, Z Nie, Y Shao, Q Luo, X Wei, X Li, J Xiao, C Wang, V Sprenkle, ...
Nano letters 13 (3), 1330-1335, 2013
Materials and systems for organic redox flow batteries: status and challenges
X Wei, W Pan, W Duan, A Hollas, Z Yang, B Li, Z Nie, J Liu, D Reed, ...
ACS Energy Letters 2 (9), 2187-2204, 2017
A biomimetic high-capacity phenazine-based anolyte for aqueous organic redox flow batteries
A Hollas, X Wei *, V Murugesan, Z Nie, B Li, D Reed, J Liu, V Sprenkle, ...
Nature Energy 3 (6), 508, 2018
Radical compatibility with nonaqueous electrolytes and its impact on an all‐organic redox flow battery
X Wei, W Xu, J Huang, L Zhang, E Walter, C Lawrence, M Vijayakumar, ...
Angewandte Chemie International Edition 54 (30), 8684-8687, 2015
Nanorod niobium oxide as powerful catalysts for an all vanadium redox flow battery
B Li, M Gu, Z Nie, X Wei, C Wang, V Sprenkle, W Wang
Nano letters 14 (1), 158-165, 2014
Unraveling pH dependent cycling stability of ferricyanide/ferrocyanide in redox flow batteries
J Luo, A Sam, B Hu, C DeBruler, X Wei, W Wang, TL Liu
Nano Energy 42, 215-221, 2017
A high-current, stable nonaqueous organic redox flow battery
X Wei, W Duan, J Huang, L Zhang, B Li, D Reed, W Xu, V Sprenkle, ...
ACS Energy Letters 1 (4), 705-711, 2016
Towards high‐performance nonaqueous redox flow electrolyte via ionic modification of active species
X Wei, L Cosimbescu, W Xu, JZ Hu, M Vijayakumar, J Feng, MY Hu, ...
Advanced Energy Materials 5 (1), 1400678, 2015
A symmetric organic-based nonaqueous redox flow battery and its state of charge diagnostics by FTIR
W Duan, RS Vemuri, JD Milshtein, S Laramie, RD Dmello, J Huang, ...
Journal of Materials Chemistry A 4 (15), 5448-5456, 2016
1 kW/1 kWh advanced vanadium redox flow battery utilizing mixed acid electrolytes
S Kim, E Thomsen, G Xia, Z Nie, J Bao, K Recknagle, W Wang, ...
Journal of Power Sources 237, 300-309, 2013
Capacity decay and remediation of nafion‐based all‐vanadium redox flow batteries
Q Luo, L Li, W Wang, Z Nie, X Wei, B Li, B Chen, Z Yang, V Sprenkle
ChemSusChem 6 (2), 268-274, 2013
“Wine-Dark Sea” in an organic flow battery: storing negative charge in 2, 1, 3-benzothiadiazole radicals leads to improved cyclability
W Duan, J Huang, JA Kowalski, IA Shkrob, M Vijayakumar, E Walter, ...
ACS Energy Letters 2 (5), 1156-1161, 2017
On the way toward understanding solution chemistry of lithium polysulfides for high energy Li–S redox flow batteries
H Pan, X Wei, WA Henderson, Y Shao, J Chen, P Bhattacharya, J Xiao, ...
Advanced Energy Materials 5 (16), 1500113, 2015
Nanoporous polytetrafluoroethylene/silica composite separator as a high‐performance all‐vanadium redox flow battery membrane
X Wei, Z Nie, Q Luo, B Li, B Chen, K Simmons, V Sprenkle, W Wang
Advanced Energy Materials 3 (9), 1215-1220, 2013
A new Fe/V redox flow battery using a sulfuric/chloric mixed‐acid supporting electrolyte
W Wang, Z Nie, B Chen, F Chen, Q Luo, X Wei, GG Xia, ...
Advanced Energy Materials 2 (4), 487-493, 2012
Vanadium redox flow battery efficiency and durability studies of sulfonated Diels Alder poly (phenylene) s
C Fujimoto, S Kim, R Stains, X Wei, L Li, ZG Yang
Electrochemistry communications 20, 48-51, 2012
Performance of NafionŽ N115, NafionŽ NR-212, and NafionŽ NR-211 in a 1 kW class all vanadium mixed acid redox flow battery
D Reed, E Thomsen, W Wang, Z Nie, B Li, X Wei, B Koeppel, V Sprenkle
Journal of Power Sources 285, 425-430, 2015
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