Non-Enzymatic Amperometric Glucose Screen-Printed Sensors Based on Copper and Copper Oxide Particles

Non-enzymatic amperometric glucose sensors have gained much attention in the past decade because of the better chemical and thermal stability and biocompatibility compared to conventional sensors based on the use of biomolecules. This study focuses on a novel copper and copper oxide-based glucose se...

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Bibliographic Details
Published in:Applied sciences 2021-11, Vol.11 (22), p.10830
Main Authors: Guati, Carlota, Gomez-Coma, Lucía, Fallanza, Marcos, Ortiz, Inmaculada
Format: Article
Language:English
Subjects:
Amperometry
Biocompatibility
Biomolecules
Carbon
Chemicals
Copper
copper oxide
Copper oxides
Diabetes
Electrical measurement
Electrodes
Enzymes
Glucose
glucose sensor
Metals
Morphology
non-enzymatic
Oxidation
Potassium
Reproducibility
Scanning electron microscopy
Sensitivity
Sensors
Thermal stability
Voltammetry
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Summary:Non-enzymatic amperometric glucose sensors have gained much attention in the past decade because of the better chemical and thermal stability and biocompatibility compared to conventional sensors based on the use of biomolecules. This study focuses on a novel copper and copper oxide-based glucose sensor synthesized by an electrodeposition technique through a rigorous protocol which reports an excellent analytical performance due to its structure and its increased active area. In addition, the linear response range, detection limit and sensitivity were 0.5–5.0 mmol L−1, 0.002 mmol L−1, 904 μA mmol−1 L−1 cm−2, respectively. Results show a reliable electrode as it is chemically stable, exhibits rapid and excellent sensitivity, and it is not significantly affected by coexisting species present in the blood samples; furthermore, it reports a maximum relative standard deviation error (RSD) of 6%, and showed long operating life as the electrode was used for thousand measurements of 4.0 mmol L−1 glucose solution during three days.
ISSN:2076-3417
2076-3417
DOI:10.3390/app112210830