| 1135 - 1136 |
Preface
Weber AZ, Meyers JP |
| 1137 - 1164 |
Redox flow batteries: a review
Weber AZ, Mench MM, Meyers JP, Ross PN, Gostick JT, Liu QH |
| 1167 - 1174 |
Simulation and optimization of a flow battery in an area regulation application
Mellentine JA, Culver WJ, Savinell RF |
| 1175 - 1182 |
Polarization curve analysis of all-vanadium redox flow batteries
Aaron D, Tang ZJ, Papandrew AB, Zawodzinski TA |
| 1183 - 1190 |
Acceleration of the redox kinetics of VO2+/VO2 (+) and V3+/V2+ couples on carbon paper
Wu XW, Yamamura T, Ohta S, Zhang QX, Lv FC, Liu CM, Shirasaki K, Satoh I, Shikama T, Lu D, Liu SQ |
| 1191 - 1199 |
Electrode kinetics in non-aqueous vanadium acetylacetonate redox flow batteries
Shinkle AA, Sleightholme AES, Thompson LT, Monroe CW |
| 1201 - 1213 |
Chemical and mechanical degradation of sulfonated poly(sulfone) membranes in vanadium redox flow batteries
Kim S, Tighe TB, Schwenzer B, Yan JL, Zhang JL, Liu J, Yang ZG, Hickner MA |
| 1215 - 1221 |
Effects of additives on the stability of electrolytes for all-vanadium redox flow batteries
Zhang JL, Li LY, Nie ZM, Chen BW, Vijayakumar M, Kim S, Wang W, Schwenzer B, Liu J, Yang ZG |
| 1223 - 1232 |
Performance of vanadium-oxygen redox fuel cell
Menictas C, Skyllas-Kazacos M |
| 1233 - 1243 |
Evaluation of iodide and titanium halide redox couple combinations for common electrolyte redox flow cell systems
Skyllas-Kazacos M, Milne N |
| 1245 - 1252 |
Analysis of a gas-phase Br-2-H-2 redox flow battery
Zhang R, Weidner JW |
