Nonenzymatic Saliva-Range Glucose Sensing Using Electrodeposited Cuprous Oxide Nanocubes on a Graphene Strip

Gao, Wenyu; Zhou, Xiaojing; Heinig, Nina F.; Thomas, Joseph P.; Zhang, Lei; Leung, Kam Tong

Title: Nonenzymatic Saliva-Range Glucose Sensing Using Electrodeposited Cuprous Oxide Nanocubes on a Graphene Strip
Creator: Gao, Wenyu; Zhou, Xiaojing; Heinig, Nina F.; Thomas, Joseph P.; Zhang, Lei; Leung, Kam Tong
Relation: ACS Applied Nano Materials Vol. 4, Issue 5, p. 4790-4799
Publisher Link: http://dx.doi.org/10.1021/acsanm.1c00381
Publisher: American Chemical Society
Resource Type: journal article
Date: 2021
Description: Cuprous oxide (Cu2O) nanomaterials provide a versatile platform for building nonenzymatic glucose sensors. In particular, Cu2O nanocubes with controllable sizes and distributions can be deposited electrochemically on a conductive graphene strip as a soft substrate under different conditions, including overpotential, temperature, copper-ion electrolyte concentration, and deposition time. Graphene provides a promising substrate for sensing because of its high conductivity, high specific surface area, and unique thermal and mechanical properties. A more negative overpotential is found to produce smaller nanocubes with a large number density, while the deposition temperature could affect the morphology of nanocubes. The size of the nanocubes increases with increasing copper-ion concentration and deposition time. Using an optimal condition of −1.0 V vs Ag/AgCl, 1 mM [Cu2+], and 100 s deposition time at room temperature, we obtain a near-homogeneous monolayer of Cu2O-shell Cu-core nanocubes, ∼50 nm in size, on a graphene strip substrate. The Cu2O nanocubes/graphene system is used as a high-performance sensor with a wide detection range of 0.002–17.1 mM and a high sensitivity appropriate for saliva-range glucose sensing. It has also been used to test glucose in the real saliva sample with 95% accuracy. This nonenzymatic glucose sensor is considerably better in performance than other nonenzymatic sensors, including those based on bare graphene, and graphene sputter-coated with a Cu film, and conventional enzymatic sensors such as glucose oxidase immobilized on graphene (with and without Nafion). In addition to being an excellent catalyst, Cu2O nanocubes have a large specific surface area and a large amount of active sites. These nanomaterial properties, along with the use of a high-conductivity substrate like graphene, make the Cu2O nanocubes/graphene sensor among the best saliva-range glucose sensors reported to date.
Subject: saliva-range; nonenzymatic glucose sensor; electrocatalyst; Cu20 nanocubes
Identifier: http://hdl.handle.net/1959.13/1472539
Identifier: uon:48881
Identifier: ISSN:2574-0970
Language: eng
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