Abstract

Abstract Solar cells based on a NiO/ZnO p-n junction structure responding to CO2 gas were fabricated by conventional RF sputtering. The developed NiO/ZnO solar cells exhibited evident photovoltaic effects and response to CO2 gas when exposed to sunlight at room temperature without thermal heating or external power supply. The open-circuit voltage, generated by the solar cells absorbing only UV light, increased in a CO2 atmosphere and decreased in air. Moreover, the response mechanism of the NiO/ZnO solar cells to CO2 gas was investigated using electrochemical impedance spectroscopy. The results suggested that the depletion layer width of the NiO/ZnO interface changed under CO2 gas with light illumination. These results represent the potential application of the NiO/ZnO p-n junction structure toward self-powered gas sensors.

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