Abstract
This article describes a two photoelectrode solid-state photoelectrochemical cell which is able to produce photopotentials in excess of one voltage and possesses some inherent storage capacity. The storage capacity is presently limited by the low concentration and thin solid polymer electrolyte (SPE) redox layers used between the photoelectrode and the SPE membrane. The use of solid-electrolyte based photoelectrochemical cells provides a unique approach for the photoelectrochemical conversion and storage of selected redox species incorporated within the proximity of the semiconductor/solid electrolyte interface. It is expected that the described cell will be of potential value as not only a specialized storage device, but for specific detector applications.
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