Electrolytes having 3.5 M hydroxide-ion concentration were tested in 1.35 Ah Zn/NiOOH cells to evaluate their ability to reduce the extent of zinc species migration and slow the rate of cell capacity decline. Alkaline-fluoride and alkaline-borate electrolytes, in which ZnO solubility is approximately 25° of that in standard 7.4 M KOH electrolyte, exhibited 0.09-0.14°/cycle zinc-electrode area loss, which may be compared to a value of 0.46°/cycle observed in standard electrolyte, In addition, no zinc penetration of the separator occurred in cells that employed alkaline-fluoride and alkaline-borate electrolytes, even when zinc-electrode overpotcntials reached 290 mV at the end of charge. Less than 2° of the zinc remaining after cycling was electrochemically inactive.
BT - Chemical Engineering Communications DO - 10.1080/00986448508911290 IS - 1-6 LA - eng N2 -Electrolytes having 3.5 M hydroxide-ion concentration were tested in 1.35 Ah Zn/NiOOH cells to evaluate their ability to reduce the extent of zinc species migration and slow the rate of cell capacity decline. Alkaline-fluoride and alkaline-borate electrolytes, in which ZnO solubility is approximately 25° of that in standard 7.4 M KOH electrolyte, exhibited 0.09-0.14°/cycle zinc-electrode area loss, which may be compared to a value of 0.46°/cycle observed in standard electrolyte, In addition, no zinc penetration of the separator occurred in cells that employed alkaline-fluoride and alkaline-borate electrolytes, even when zinc-electrode overpotcntials reached 290 mV at the end of charge. Less than 2° of the zinc remaining after cycling was electrochemically inactive.
PY - 1985 SP - 355 EP - 379 T2 - Chemical Engineering Communications TI - Zinc electrode cycle-life performance in alkaline electrolytes having reduced zinc species solubility VL - 37 ER -