Recent advances in photoelectrochemical sensors for detection of ions in water

Over the last 50 years, the explosive adoption of modern agricultural practices has led to an enormous increase in the emission of non-biodegradable and highly biotoxic ions into the hydrosphere. Excess intake of such ions, even essential trace elements such as Cu2+ and F−, can have serious consequences on human health. Therefore, to ensure safe drinking water and regulate wastewater discharge, photoelectrochemical (PEC) online sensors were developed, with advantages such as low energy consumption, inherent miniaturization, simple instrumentation, and fast response. However, there is no publicly available systematic review of the recent advances in PEC ion sensors available in the literature since January 2017. Thus, this review covers the various strategies that have been used to enhance the sensitivity, selectivity, and limit of detection for PEC ion sensors. The photoelectrochemically active materials, conductive substrates, electronic transfer, and performance of various PEC sensors are discussed in detail and divided into sections based on the measurement principle and detected ion species. We conclude this review by highlighting the challenges and potential future avenues of research associated with the development of novel high-performance PEC sensors.