Dynamic Photoelectrochemical Device Using an Electrolyte-Permeable NiO /SiO/Si Photocathode with an Open-Circuit Potential of 0.75 V.

As a thermodynamic driving force obtained from sunlight, the open-circuit potential (OCP) in photoelectrochemical cells is typically limited by the photovoltage ( V). In this work, we establish that the OCP can exceed the value of V when an electrolyte-permeable NiO thin film is employed as an electrocatalyst in a Si photocathode. The built-in potential developed at the NiO /Si junction is adjusted in situ according to the progress of the NiO hydration for the hydrogen evolution reaction (HER). As a result of decoupling of the OCP from V, a high OCP value of 0.75 V (vs reversible hydrogen electrode) is obtained after 1 h operation of HER in an alkaline electrolyte (pH = 14), thus outperforming the highest value (0.64 V) reported to date with conventional Si photoelectrodes. This finding might offer insight into novel photocathode designs such as those based on tandem water-splitting systems.