Abstract

Arsenic monitoring is of paramount importance due to its toxicity, which poses potential public health hazards. While numerous sensitive methods exist, many are unsuitable for on‐site, rapid, real‐time measurements, and their sensor preparation is often time‐consuming and intricate. Addressing this gap necessitates the development of an easy‐to‐use, rapid, and reasonably affordable arsenic detection device featuring an eco‐friendly sensor. For on‐site arsenic monitoring, the optimal solution involves creating a sensitive impedimetric electrochemical sensor that is real‐time, fast, low‐cost, simple to design and use, and portable. This study introduces an electrochemical im

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