T. Manimekala scite author profile

Field-effect transistor biosensors (Bio-FET) have attracted great interest in recent years owing to their distinctive properties like high sensitivity, good selectivity, and easy integration into portable and wearable electronic devices. Bio-FET performance mainly relies on the constituent components such as the bio-recognition layer and the transducer, which ensures device stability, sensitivity, and lifetime. Nanomaterial-based Bio-FETs are excellent candidates for biosensing applications. This review discusses the basic concepts, function, and working principles of Bio-FETs, and focuses on the progress of recent research in Bio-FETs in the sensing of neurotransmitters, glucose, nucleic acids, proteins, viruses, and cancer biomarkers using nanomaterials. Finally, challenges in the development of Bio-FETs, as well as an outlook on the prospects of nano Bio-FET-based sensing in various fields, are discussed.

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Biomass derived activated carbon-based high-performance electrodes for supercapacitor applications

Manimekala

Sivasubramanian

Karthikeyan³

et al. 2022

J Porous Mater

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T. Manimekala

Nanomaterial-Based Biosensors using Field-Effect Transistors: A Review

Biomass derived activated carbon-based high-performance electrodes for supercapacitor applications

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