Description

Book Synopsis
Ambipolar materials represent a class of materials where positive and negative charge carriers can both transport concurrently. In recent years, a diverse range of materials have been synthesized and utilized for implementing ambipolar charge transport, with applications in high‐density data storage, field effect transistors, nanotransitors, photonic memory, biomaterial-based memories and artificial synapses. This book highlights recent development of ambipolar materials involving materials design, fundamental principles, interface modifications, device structures, ambipolar characteristics and promising applications. Challenges and prospects for investigating ambipolar materials in electronics and optoelectronics are also discussed. With contributions from global leaders in the field, this title will appeal to graduate students and researchers who want to understand the design, materials characteristics, device operation principles, specialized device application and mechanisms of the latest ambipolar materials.

Table of Contents
Introduction and fundamental principles of ambipolar materials; Ambipolar organic polymers for thin film transistors and solar cells; Bilayer structures with ambipolar properties; Organic-inorganic hybrid perovskite materials with ambipolar properties; Blend structures with ambipolar properties; Graphene: Preparation and Applications; Synthsis and applications of graphene quantum dots; Carbon Nanotube: Preparation and Applications; Mathematical modeling and simulations on using nanotubes and graphene for ultrafiltration, and molecular and charge transport; The Material Family of Two-Dimensional Transition Metal Chalcogenides Semiconductors; Controllable Systhesis of Two-Dimensional Layered Transition Metal Chalcogenides and their heterostructures; Ambipolar inorganic two-dimensional materials for solar cells; Ambipolar transistors for logic operation; Ambipolar two-dimensional materials and devices for neuromorphic computing; Light-emitting transistors with ambipolar materials; Ambipolar materials for gas sensing; Nonvolatile bipolar transistor memory; Challenges, possible strategies and conclusions

Ambipolar Materials and Devices

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A Hardback by Ye Zhou, Su-Ting Han

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    Publisher: Royal Society of Chemistry
    Publication Date: 15/09/2020
    ISBN13: 9781788018685, 978-1788018685
    ISBN10: 1788018680
    Also in:
    Electronics engineering Materials science

    Description

    Book Synopsis
    Ambipolar materials represent a class of materials where positive and negative charge carriers can both transport concurrently. In recent years, a diverse range of materials have been synthesized and utilized for implementing ambipolar charge transport, with applications in high‐density data storage, field effect transistors, nanotransitors, photonic memory, biomaterial-based memories and artificial synapses. This book highlights recent development of ambipolar materials involving materials design, fundamental principles, interface modifications, device structures, ambipolar characteristics and promising applications. Challenges and prospects for investigating ambipolar materials in electronics and optoelectronics are also discussed. With contributions from global leaders in the field, this title will appeal to graduate students and researchers who want to understand the design, materials characteristics, device operation principles, specialized device application and mechanisms of the latest ambipolar materials.

    Table of Contents
    Introduction and fundamental principles of ambipolar materials; Ambipolar organic polymers for thin film transistors and solar cells; Bilayer structures with ambipolar properties; Organic-inorganic hybrid perovskite materials with ambipolar properties; Blend structures with ambipolar properties; Graphene: Preparation and Applications; Synthsis and applications of graphene quantum dots; Carbon Nanotube: Preparation and Applications; Mathematical modeling and simulations on using nanotubes and graphene for ultrafiltration, and molecular and charge transport; The Material Family of Two-Dimensional Transition Metal Chalcogenides Semiconductors; Controllable Systhesis of Two-Dimensional Layered Transition Metal Chalcogenides and their heterostructures; Ambipolar inorganic two-dimensional materials for solar cells; Ambipolar transistors for logic operation; Ambipolar two-dimensional materials and devices for neuromorphic computing; Light-emitting transistors with ambipolar materials; Ambipolar materials for gas sensing; Nonvolatile bipolar transistor memory; Challenges, possible strategies and conclusions

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