Characteristics of an Extended Gate Field-Effect Transistor for Glucose Sensing Using an Enzyme-Containing Silk Fibroin Membrane as the Bio-Chemical Component

Kazuto Koike; Taihou Sasaki; Kenta Hiraki; Kodai Ike; Yuichi Hirofuji; Mitsuaki Yano

doi:10.3390/bios10060057

Characteristics of an Extended Gate Field-Effect Transistor for Glucose Sensing Using an Enzyme-Containing Silk Fibroin Membrane as the Bio-Chemical Component

Biosensors (Basel). 2020 May 29;10(6):57. doi: 10.3390/bios10060057.

Authors

Kazuto Koike¹, Taihou Sasaki¹, Kenta Hiraki¹, Kodai Ike¹, Yuichi Hirofuji¹, Mitsuaki Yano¹

Affiliation

¹ Nanomaterials Microdevices Research Center, Osaka Institute of Technology, Asahi-ku Ohmiya, Osaka 535-8585, Japan.

Abstract

The characteristics of a glucose sensor based on an ion-sensitive TiO₂/Ti extended gate electrode field-effect transistor (EGFET) are reported. A glucose oxidase-containing silk fibroin membrane was immobilized on a TiO₂/Ti surface as the bio-sensing component. This EGFET-type biosensor was estimated to be able to detect a glucose concentration as low as 0.001 mg/mL in an aqueous electrolyte, which enables the sensing of glucose in the saliva and sweat. The endurance of this sensor was also examined, and it was found that the retention time of the original sensitivity for repeated use at room temperature was more than 30 days, with a high heat tolerance temperature close to 60 °C.

Keywords: EGFET; biosensor; glucose oxidase; immobilization; silk fibroin.

MeSH terms

Biosensing Techniques*
Electrodes
Fibroins / chemistry*
Fibroins / metabolism
Glucose / analysis*
Glucose / metabolism
Glucose Oxidase / chemistry*
Glucose Oxidase / metabolism
Saliva / chemistry
Silk / chemistry*
Silk / metabolism
Surface Properties
Sweat / chemistry
Titanium / chemistry
Transistors, Electronic*

Substances

Silk
titanium dioxide
Fibroins
Titanium
Glucose Oxidase
Glucose

Grants and funding

17K06472 and 20K04506/Japan Society for the Promotion of Science