Development of a high-performance Cu–Ni decorated laser-induced graphene sensor for nonenzymatic glucose monitoring in sweatBetty Edem Nugba, Nahla O. Mousa, Ahmed Osman, and A. A. El-Moneim Biotechnology Program, Basic and Applied Sciences Institute, Egypt-Japan University of Science and Technology, Alexandria, Egypt
E-mail: betty.nugba@ejust.edu.eg Received: 3 April 2024 Accepted: 28 October 2024 Abstract: Biosensors and accurate monitoring of glucose levels play a crucial role in the diagnosis and management of chronic metabolic disorders such as diabetes mellitus. Pertaining to the need of developing a sensitive noninvasive glucose detection system, the aim of this study was to design and fabricate a high-performance nonenzymatic, rapid and affordable glucose monitoring device. To reach that aim, porous Ni–Cu nanosheets were electrodeposited on 3D laser-induced graphene sheet. The Ni–Cu coatings were fabricated using electrolytic bath using different Cu2+:Ni2+ concentration ratios. The developed biosensors were characterized by SEM complemented with EDS, XPS, cyclic voltammetry, EIS and chronoamperometry characterizations techniques. The efficiency of the fabricated electrodes as a wearable biosensor was tested through glucose detection in artificial sweat as a biological fluid that can be used in real-time monitoring. The results revealed excellent sensor analytical performance through exhibiting a wide linear range with a significantly high sensitivity (11,012.73–15,286.66 μA/mM.cm2) and low detection limit (0.0062 μM). The sensor also demonstrated a stable selective response with the presence of interfering compounds. The Ni-Cu-LIG sensor was able to detect the glucose in artificial sweat samples, and hence, they show a great potential to be used as a real-time wearable device. Keywords: Graphene; Biosensor; Ni; Cu; Glucose; Nonenzymatic Full paper is available at www.springerlink.com. DOI: 10.1007/s11696-024-03779-7
Chemical Papers 79 (1) 265–282 (2025) |
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