Field-effect Transistor Biosensors for Rapid Pathogen Detection
Looking to prevent future outbreaks of deadly pathogens by early detection? Infectious diseases continue to be a challenge that necessitates increased precision in detection and integration to achieve accurate diagnosis at the point of care (PoC). Field-effect transistors (FETs) have been investigated widely as biosensors for pathogen detection, with advantages such as label-free and real-time detection capabilities. These biosensors have:

  • a high level of sensitivity,
  • a remarkable capacity for miniaturization,
  • a molecular minimum limit of detection (LoD), and
  • seamless integration with semiconductor technology

In this title, we have invited expert scientific researchers to share their experience in this field. This book focuses on the application and possibility of FETs as biosensors, for rapid and real time detection of pathogens that affect human life. The lack of commercially available efficient devices that can be deployed for this task resulted in the recent global spread of the SARS-CoV-19 virus. The book is an attempt to keep interested parties up to date.

Aimed at scientists and engineers (researchers, academics, and postgraduate students) who are interested in developing and using BioFET based sensors, the information in this book is crucial to help prevent future outbreaks of pathogens which bring with them significant impacts on human health and wellbeing.

1144432438
Field-effect Transistor Biosensors for Rapid Pathogen Detection
Looking to prevent future outbreaks of deadly pathogens by early detection? Infectious diseases continue to be a challenge that necessitates increased precision in detection and integration to achieve accurate diagnosis at the point of care (PoC). Field-effect transistors (FETs) have been investigated widely as biosensors for pathogen detection, with advantages such as label-free and real-time detection capabilities. These biosensors have:

  • a high level of sensitivity,
  • a remarkable capacity for miniaturization,
  • a molecular minimum limit of detection (LoD), and
  • seamless integration with semiconductor technology

In this title, we have invited expert scientific researchers to share their experience in this field. This book focuses on the application and possibility of FETs as biosensors, for rapid and real time detection of pathogens that affect human life. The lack of commercially available efficient devices that can be deployed for this task resulted in the recent global spread of the SARS-CoV-19 virus. The book is an attempt to keep interested parties up to date.

Aimed at scientists and engineers (researchers, academics, and postgraduate students) who are interested in developing and using BioFET based sensors, the information in this book is crucial to help prevent future outbreaks of pathogens which bring with them significant impacts on human health and wellbeing.

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Field-effect Transistor Biosensors for Rapid Pathogen Detection

Field-effect Transistor Biosensors for Rapid Pathogen Detection

Field-effect Transistor Biosensors for Rapid Pathogen Detection
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Field-effect Transistor Biosensors for Rapid Pathogen Detection

Field-effect Transistor Biosensors for Rapid Pathogen Detection

Overview

Looking to prevent future outbreaks of deadly pathogens by early detection? Infectious diseases continue to be a challenge that necessitates increased precision in detection and integration to achieve accurate diagnosis at the point of care (PoC). Field-effect transistors (FETs) have been investigated widely as biosensors for pathogen detection, with advantages such as label-free and real-time detection capabilities. These biosensors have:

  • a high level of sensitivity,
  • a remarkable capacity for miniaturization,
  • a molecular minimum limit of detection (LoD), and
  • seamless integration with semiconductor technology

In this title, we have invited expert scientific researchers to share their experience in this field. This book focuses on the application and possibility of FETs as biosensors, for rapid and real time detection of pathogens that affect human life. The lack of commercially available efficient devices that can be deployed for this task resulted in the recent global spread of the SARS-CoV-19 virus. The book is an attempt to keep interested parties up to date.

Aimed at scientists and engineers (researchers, academics, and postgraduate students) who are interested in developing and using BioFET based sensors, the information in this book is crucial to help prevent future outbreaks of pathogens which bring with them significant impacts on human health and wellbeing.

Product Details

ISBN-13: 9781837670819
Publisher: RSC
Publication date: 05/03/2024
Series: Detection Science Series , #24
Pages: 256
Product dimensions: 6.15(w) x 9.20(h) x 0.65(d)

Table of Contents

The Physics and Operating Principles of Field-effect Transistor-based Biosensors;Electrolyte-gated FET Biosensors;Challenges in the Detection of Emerging Novel Pathogens and Evolving Known Pathogens;Rapid Detection of Microorganisms Based on FET Devices;Field-effect Transistor Biosensors Based on Nanomaterials for Zoonotic Pathogen Detection;Field-effect Transistor Biosensors for Rapid SARS-COV-2 Detection;The Future of Commercializing FET-based Biosensors

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Science & Technology
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