Gold nanourchin on multiple‐point dielectrode for glucose biosensing by current‐potential measurement

Abstract

AbstractGestational diabetes (GD) is a condition characterized by elevated blood sugar levels during pregnancy. GD poses various health risks, such as serious birth injuries, the need for cesarean delivery, and the necessity of newborn care. Monitoring glucose levels is essential for ensuring safe delivery and reducing the risks to both the mother and fetus. Various sensors are readily available for monitoring glucose levels, and researchers are continually working to develop highly sensitive glucose sensors. This research aimed to develop a gold nanourchin (AuNU)‐hybrid biosensor for quantifying glucose on a multi‐point electrode sensor. Glucose oxidase (GOx) was attached to the AuNU and seeded on the sensing surface using an amine linker. The current‐potential (1–2 V at 0.1 V sweep) was recorded for the GOx–glucose interaction, with a limit of detection of 560 μM and a regression coefficient (R2) of 0.9743 [y = 0.9106x − 0.9953] on the linear curve. The sensitivity was estimated to be 3.5 mAcm−2M−1. Furthermore, control experiments with galactose, sucrose, and fructose did not yield an increase in current‐potential, confirming specific glucose detection. This experiment helps in monitoring glucose levels to manage conditions associated with GD.