| Molecular engineering of organic electroactive materials for redox flow batteries Y Ding*, C Zhang*, L Zhang*, Y Zhou, G Yu Chemical Society Reviews 47 (1), 69-103, 2018 | 503 | 2018 |
| Progress and prospects of next-generation redox flow batteries C Zhang*, L Zhang*, Y Ding, S Peng, X Guo, Y Zhao, G He, G Yu Energy Storage Materials 15, 324-350, 2018 | 266 | 2018 |
| Fast and Reversible Li Ion Insertion in Carbon‐Encapsulated Li3VO4 as Anode for Lithium‐Ion Battery C Zhang, H Song, C Liu, Y Liu, C Zhang, X Nan, G Cao Advanced Functional Materials 25 (23), 3497-3504, 2015 | 194 | 2015 |
| Mesocrystal MnO cubes as anode for Li-ion capacitors C Liu, C Zhang, H Song, C Zhang, Y Liu, X Nan, G Cao Nano Energy 22, 290-300, 2016 | 190 | 2016 |
| Exploiting high‐performance anode through tuning the character of chemical bonds for Li‐ion batteries and capacitors C Liu, C Zhang, H Fu, X Nan, G Cao Advanced Energy Materials 7 (1), 1601127, 2017 | 186 | 2017 |
| Phenothiazine‐based organic catholyte for high‐capacity and long‐life aqueous redox flow batteries C Zhang, Z Niu, S Peng, Y Ding, L Zhang, X Guo, Y Zhao, G Yu Advanced Materials 31 (24), 1901052, 2019 | 184 | 2019 |
| Anode for zinc-based batteries: challenges, strategies, and prospects W Lu, C Zhang, H Zhang, X Li ACS Energy Letters 6 (8), 2765-2785, 2021 | 172 | 2021 |
| A self‐healing room‐temperature liquid‐metal anode for alkali‐ion batteries X Guo, Y Ding, L Xue, L Zhang, C Zhang, JB Goodenough, G Yu Advanced Functional Materials 28 (46), 1804649, 2018 | 159 | 2018 |
| Self-doped V4+–V2O5 nanoflake for 2 Li-ion intercalation with enhanced rate and cycling performance H Song, C Liu, C Zhang, G Cao Nano Energy 22, 1-10, 2016 | 159 | 2016 |
| Eutectic electrolytes as a promising platform for next-generation electrochemical energy storage C Zhang*, L Zhang*, G Yu Accounts of Chemical Research 53 (8), 1648-1659, 2020 | 151 | 2020 |
| A Sustainable Redox‐Flow Battery with an Aluminum‐Based, Deep‐Eutectic‐Solvent Anolyte C Zhang*, Y Ding*, L Zhang*, X Wang, Y Zhao, X Zhang, G Yu Angewandte Chemie International Edition 56 (26), 7454-7459, 2017 | 140 | 2017 |
| A dual‐ion organic symmetric battery constructed from phenazine‐based artificial bipolar molecules G Dai, Y He, Z Niu, P He, C Zhang, Y Zhao, X Zhang, H Zhou Angewandte Chemie International Edition 58 (29), 9902-9906, 2019 | 136 | 2019 |
| Pathways to widespread applications: development of redox flow batteries based on new chemistries Y Ding*, C Zhang*, L Zhang*, Y Zhou, G Yu Chem 5 (8), 1964-1987, 2019 | 119 | 2019 |
| Enhanced storage of sodium ions in Prussian blue cathode material through nickel doping H Fu, C Liu, C Zhang, W Ma, K Wang, Z Li, X Lu, G Cao Journal of materials chemistry A 5 (20), 9604-9610, 2017 | 119 | 2017 |
| A low-cost and high-energy hybrid iron-aluminum liquid battery achieved by deep eutectic solvents L Zhang*, C Zhang*, Y Ding*, K Ramirez-Meyers, G Yu Joule 1 (3), 623-633, 2017 | 118 | 2017 |
| Supported Noble Metals on Hydrogen‐Treated TiO2 Nanotube Arrays as Highly Ordered Electrodes for Fuel Cells C Zhang, H Yu, Y Li, Y Gao, Y Zhao, W Song, Z Shao, B Yi ChemSusChem 6 (4), 659-666, 2013 | 118 | 2013 |
| Highly concentrated phthalimide-based anolytes for organic redox flow batteries with enhanced reversibility C Zhang*, Z Niu*, Y Ding, L Zhang, Y Zhou, X Guo, X Zhang, Y Zhao, ... Chem 4 (12), 2814-2825, 2018 | 117 | 2018 |
| Biredox eutectic electrolytes derived from organic redox‐active molecules: high‐energy storage systems C Zhang, Y Qian, Y Ding, L Zhang, X Guo, Y Zhao, G Yu Angewandte Chemie International Edition 58 (21), 7045-7050, 2019 | 95 | 2019 |
| Eutectic electrolytes for high-energy-density redox flow batteries C Zhang*, L Zhang*, Y Ding, X Guo, G Yu ACS Energy Letters 3 (12), 2875-2883, 2018 | 95 | 2018 |
| MnO nanoparticles with cationic vacancies and discrepant crystallinity dispersed into porous carbon for Li-ion capacitors C Liu, C Zhang, H Song, X Nan, H Fu, G Cao Journal of materials chemistry A 4 (9), 3362-3370, 2016 | 91 | 2016 |
Guihua YuUniversity of Texas at Austin, Stanford, Harvard, USTCBestätigte E-Mail-Adresse bei austin.utexas.edu
