A redox flow battery with high capacity retention using 12-phosphotungstic acid/iodine mixed solution as electrolytes

An electrolyte solution that includes redox couples is an essential component of a redox flow battery (RFB), and it directly affects the efficiency, power density, and cycle stability of the device. In this work, 12-phosphotungstic acid (PTA), a keggin type heteropolyacid, is evaluated as a redox active material in negative electrolyte. PTA has high redox reversibility and electrochemical activity with a kinetic constant of 0.015 cm s(-1) and a low permeability of 6.17 x 10(-10) cm(2) min(-1) through a Nafion (R) 211 membrane. A single RFB is assembled with PTA and HI as the negative and positive redox active materials, respectively. The cell has a specific capacity of 12.8 Ah.L-1 at 100 mA cm(-2); however, it exhibits poor cycle stability because of the osmotic pressure imbalance between the electrolyte solutions, the permeation of and the serious hydrogen evolution side reaction. Using a mixed solution of PTA and HI as electrolytes on both sides of the cell and by adjusting the charge cutoff voltage, the cycle stability improved significantly. During 700 charge/discharge cycles at 100 mA cm(-2), the battery has high coulombic efficiency of 99.6%, energy efficiency around 80.1%, and capacity retention of 99.99% per hour.