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This book provides an overview of magnetic resonance in organic semiconductor devices, including a framework of the underlying spin physics. It starts with an introduction of organic electronic and optoelectronic devices. Basic principles of optical and electrical detection are included, as well as the conventional microwave detection of electron paramagnetic resonance (EPR) for organic devices. The details of a magnetic resonance spectrometer are presented as well as operando conditions (measurements under real working conditions). The details for experimental setup are provided. This book will also include emerging research in the field of organic neuromorphic devices, and aims to offer essential knowledge for researchers, developers, and students interested in applying magnetic resonance methods to electronic and optoelectronic devices.
Key Features:
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Provides an overview of recent progress of magnetic resonance in organic semiconductors and their electronic/optoelectronic devices
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Includes a description of the instrumentation of a magnetic resonance spectrometer
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Contains practical information about operando measurements on magnetic resonance for organic devices
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Presents neuromorphic devices
Preface
Author biographies
1 Introduction
2 Principle of experiment
3 Development of electron spin resonance apparatus for π-conjugated molecular devices
4 Construction of a variable-frequency ESR/EDMR measurement system using a waveguide window-equipped cavity
5 Progress of magnetic resonance spectroscopy for organic devices
6 Elucidation of spin-dependent processes in pentacene devices using EDMR
7 Impact of molecular orientation on spin-dependent processes in pentacene devices
8 Conclusion