Detection of type-Ⅱ diabetes using graphene-based biosensors

Diabetes is a global pandemic that increases the risk of various health complications, including heart attacks, renal failure, blindness, stroke, and peripheral neuropathy. Type-2 Diabetes (T2D) results from an imbalance in lipid and glucose metabolism due to hostility to insulin action and insuffic...

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Bibliographic Details
Published in:Journal of physics. D, Applied physics Applied physics, 2024-05, Vol.57 (18)
Main Authors: Roondhe, Basant, Saha, Sankhadip, Luo, Wei, Ahuja, Rajeev, Saxena, Sumit
Format: Article
Language:English
Subjects:
density functional theory
graphene
sensor
type-II diabetes
type-Ⅱ diabetes
valine
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Summary:Diabetes is a global pandemic that increases the risk of various health complications, including heart attacks, renal failure, blindness, stroke, and peripheral neuropathy. Type-2 Diabetes (T2D) results from an imbalance in lipid and glucose metabolism due to hostility to insulin action and insufficient insulin production response. Valine amino acid has been identified as a potential biomarker for T2D, but there have been no rigorous studies on its interaction with branch chain amino acids. In this study, we investigated the potential of graphene/modified graphene as a valine biosensor using density functional theory to examine the electronic properties and adsorption behavior of graphene, Si-doped graphene, and P-doped graphene. The adsorption of valine over the substrates was physisorption in nature, and the adsorption energies were in the order of SiG>G>PG. DOS and PDOS calculations confirmed the molecule's adsorption over the monolayers and indicated variations in the electronic properties. We also performed recovery time calculations to examine the reusability of the nano-surfaces as potential biosensors. Ultrafast recovery times were predicted for all three systems, with Si-doped graphene showing the best results. Our study suggests that Si-doped graphene could be used as a biosensor for valine, providing a real-time and efficient diagnostic tool for T2D.
ISSN:0022-3727
1361-6463
1361-6463
DOI:10.1088/1361-6463/ad2336