Non-enzymatic glucose sensors based on electrodeposited CuxO–ZnO composite nanostructures

The present study investigates the non-enzymatic glucose sensing properties of Cu _x O–ZnO (x = 1,2) composite nanostructures that have been fabricated using a simple and fast co-electrodeposition (CED) method. Two concentrations of Cu ^2+ were used and interestingly, for the lower concentration, the fabricated (C _2 ) nanostructures are of Cu _2 O–ZnO type while for the higher concentration (C _50 ), nanostructures show a mixed Cu _x O–ZnO (x = 1,2) nature. Although both the samples exhibit a good catalytic response for non-enzymatic glucose sensing, the C _50 sample shows a far superior response. Along with a high sensitivity of 384.6 µA mM ^-1 cm ^-2 , a large linear range of 0.03–3 mM, and a low least detection limit (LOD) of 0.7 µM, C _50 also demonstrates a good long-term stability, good reproducibility, and good selectivity toward glucose detection, even in the presence of interfering species. The synergistic effect of Cu _x O–ZnO composite nanostructures and their semiconducting nature may be contributing to the good response of C _50 as a glucose sensor. The results presented here demonstrate that C _50 can be an excellent non-enzymetic glucose sensor for measuring glucose in blood and food samples.