2024 journal article

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Development of Direct Electron Transfer-Type Extended Gate Field Effect Transistor Enzymatic Sensors for Metabolite Detection

ANALYTICAL CHEMISTRY, 96(10), 4076–4085.

By: D. Probst ⁿ, J. Twiddy ⁿ, M. Hatada ⁿ, S. Pavlidis ⁿ, M. Daniele ⁿ  & K. Sode ⁿ 

topics (OpenAlex): Analytical Chemistry and Sensors; Electrochemical sensors and biosensors; Electrochemical Analysis and Applications

10.1021/acs.analchem.3c04599

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3. Good Health and Well-being (Web of Science)

6. Clean Water and Sanitation (OpenAlex)

Source: Web Of Science

Added: March 18, 2024

In this work, direct electron transfer (DET)-type extended gate field effect transistor (EGFET) enzymatic sensors were developed by employing DET-type or quasi-DET-type enzymes to detect glucose or lactate in both 100 mM potassium phosphate buffer and artificial sweat. The system employed either a DET-type glucose dehydrogenase or a quasi-DET-type lactate oxidase, the latter of which was a mutant enzyme with suppressed oxidase activity and modified with amine-reactive phenazine ethosulfate. These enzymes were immobilized on the extended gate electrodes. Changes in the measured transistor drain current (