Lateral Size Effects of Two-dimensional IrO₂ Nanosheets towards the Oxygen Evolution Reaction Activity

Abstract

The oxygen evolution reaction of anode catalyst is an important reaction in polymer electrolyte membrane water electrolysis. Recent research has focused on understanding the factors governing the catalytic properties of nanostructured IrO₂ in order to decrease the use of expensive and precious IrO₂. We demonstrate here the equivalent diameter (D_e) effect (lateral size effect) of IrO₂ nanosheets for the oxygen evolution reaction. IrO₂ nanosheets with four different D_e from 110 to 260 nm and same thickness (∼1.5 nm) were prepared. The electrical double layer capacitance, which should be proportional to the electrochemically active surface area, of IrO₂ nanosheets was independent of D_e. On the other hand, the pseudo-capacitance, which is related to surface redox processes, and the oxygen evolution reaction activity increased with decreasing D_e. The enhanced oxygen evolution reaction activity is discussed based on the electrochemically active surface area and edge effect.