Abstract
Copper oxide nanoleaves have attracted a lot of interest as potential components for electrochemical glucose sensors. Their distinctive structural features, including as a high surface-to-volume ratio and a customized shape, improve their electrocatalytic activities and increase the sensitivity and selectivity of glucose detection. An overview of the synthesis processes, structural characteristics, and electrochemical capabilities of copper oxide nanoleaves for glucose sensing applications are given in this abstract. Their prospective incorporation into portable and miniaturized sensor platforms is also examined, underlining the important contributions they have made to the field of point-of-care diagnostics and continuous glucose monitoring for diabetics.
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