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This dissertation explores the development and application of organic electrochemical transistor (OECT) based biosensors for capacitive and faradaic sensing. It focuses on the integration of organic electronics with biological systems to enhance healthcare diagnostics and personalized medicine. The work examines the use of organic mixed ionic-electronic conductive polymers in OECTs, highlighting their potential in detecting biological signals and amplifying them into electrical outputs. The research discusses the adaptability of these sensors for point-of-care applications, such as glucose monitoring, and their role in addressing diagnostic challenges evidenced by the COVID-19 pandemic. The intended audience includes researchers and professionals in the fields of bioelectronics, materials science, and healthcare technology.

Organic electrochemical transistors. --- Biosensors. --- Organic electrochemical transistors --- Biosensors

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This book is one of a series of five volumes forming an integrated, self-study course on silicon device physics, modes of operation, characterization, and fabrication. The series is based on many years of the author’s experience in academic and industrial teaching of semiconductors. The books are suitable for both class-teaching and self-study. The authors have designed the content to enable readers to be introduced gradually to semiconductors, in particular silicon components. The presentation includes many illustrations, practical examples, review questions and problems at the end of each chapter. Answers to review questions and solutions to problems will be provided for “self-check”. Complements courses covering silicon device physics, mode of components, characterization, and fabrication; Enables comprehensive, self-study in semiconductors, aimed at practicing engineers or university students; Includes many illustrations, practical examples, review questions and problems at the end of each chapter.

Electronic circuits. --- Electronics. --- Solid state physics. --- Electronic Circuits and Systems. --- Electronics and Microelectronics, Instrumentation. --- Electronic Devices. --- Transistors.