Noninvasive Salivary Sensor Based on Ferrocene/ZnO/Nitrogen-Incorporated Nanodiamond/Si Heterojunction Nanostructures for Glucose Sensing in Neutral Conditions

Abstract: The development of a simple and convenient noninvasive salivary glucose sensor to replace the needle-prick blood collection process can not only enhance early detection and diagnosis but also reduce excess medical care costs due to delayed treatment. This study presents a noninvasive sensor based on a ferrocene/ZnO/ nitrogen-incorporated nanodiamond/Si heterojunction structure to measure glucose in saliva. The sensing electrode based on a heterojunction structure composed of ferrocene (FC), Bidens-like zinc ox… Show more

“…More recently, the commonly reported strategy is to couple GOD to polymers or macromolecules containing Fc, either through covalent bonding or intermolecular interactions, using biocomposite materials. [28][29][30] The spatial distribution of Fc and GOD is confined within the microstructure of biocomposite materials, enhancing electron transfer mediation between them. However, the synthesis processes of biocomposites can be tedious and time-consuming.…”

A flexible electrochemical glucose sensing platform based on an electrospun PVA mat covered with in situ grown silver nanoparticles and a mixed self-assembled monolayer of glucose oxidase and ferrocene

“…More recently, the commonly reported strategy is to couple GOD to polymers or macromolecules containing Fc, either through covalent bonding or intermolecular interactions, using biocomposite materials. [28][29][30] The spatial distribution of Fc and GOD is confined within the microstructure of biocomposite materials, enhancing electron transfer mediation between them. However, the synthesis processes of biocomposites can be tedious and time-consuming.…”

A flexible electrochemical glucose sensing platform based on an electrospun PVA mat covered with in situ grown silver nanoparticles and a mixed self-assembled monolayer of glucose oxidase and ferrocene

Eco-friendly fabrication of CdO nanoparticles using Polyalthia longifolia leaves extract for antibacterial and electrochemical sensing studies

Nanodiamond: Structure, synthesis, properties, and applications