An Introduction to Charge Carriers

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Series: Physics Research and Technology
BISAC: SCI077000
DOI: https://doi.org/10.52305/NBQI1695

Target Audience: An ideal book for senior undergraduate and postgraduate students and teaching and research professionals in the field of solid-state physics, material science and engineering.

This book provides a semi-quantitative approach to understanding and applications of charge carriers in inorganic and organic opto-electronic and photonic devices. Featuring contributions by noted experts in the field of optoelectronics, materials and photonics, this book describes the importance of charge carriers in the operation of optoelectronic and photonic devices of both inorganic and organic semiconductors.

An Introduction to Charge Carriers starts with the concept of charge carriers and their involvement in a few inorganic and organic devices, like solar cells and organic light emitting diodes (OLEDs), including those based on thermally activated and delayed fluorescence (TADF). Then it discusses the applications of charge carriers in silicon p-n junction, nanomaterials, wurtzite phases of gallium, aluminium and indium nitride devices, ion conducting polymer electrolytes, rare-earth doped glasses, organic photodetectors, and several aspects of organic and perovskite solar cells.

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Table of Contents

Preface

Chapter 1. Electrons and Charge Carriers
(J. Singh, D. Ompong, H. Mehdizadeh-Rad, U. Shakeel, K. Sreedhar Ram, D. D. Yao Setsoafia – College of Engineering, IT and Environment, Charles Darwin University, Darwin, NT, Australia, et al.)

Chapter 2. Analytical Solutions for Drift-Diffusion Equations Describing Charge-0Carrier Transport in Silicon Semiconductor Structures
(L. Edmonds – Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA, US)

Chapter 3. Dynamics of Charge Carriers in Nanomaterials
(K. Shimakawa, S. Kasap – Department of Electrical and Electronic Engineering, Gifu University, Gifu, Japan, et al.)

Chapter 4. Charge Carrier Transport Within the Wurtzite Phases of the Gallium, Aluminum, and Indium Nitrides
(S. K. O’Leary, P. Siddiqua, M. S. Shur – School of Engineering, The University of British Columbia, Kelowna, British Columbia, Canada, et al.)

Chapter 5. Charge Carrier Dynamics in Ion Conducting Polymer Electrolytes
(S. Gupta, B. Battacharya – School of Basic Sciences and Research, Sharda University, Greater Noida, India, et al.)

Chapter 6: Energy Exchange Processes in Rare-Earth Ion Doped Glasses and Their Importance in Lasing and Signal Amplification
(A. Jha, E. K. Barimah – School of Chemical and Process Engineering, Faculty of Engineering & Physical Sciences, University of Leeds, Woodhouse Lane, Leeds, UK)

Chapter 7. Dynamics of Charge Carriers in Spectral Selective Organic Photodetectors
(F. Zhu, Z. Lan – Department of Physics, Research Centre of Excellence for Organic Electronics, and Institute of Advanced Materials, Hong Kong Baptist University, Kowloon Tong, NT, Hong Kong, China)

Chapter 8. Charge Generation Dynamics in Organic and Perovskite Solar Cells
(D. Ompong, J. Singh – College of Engineering, IT and Environment, Charles Darwin University, Darwin, NT, Australia, et al.)

Chapter 9. Optimal Performance of Organic Solar Cells; Charge Carrier Effects
(H. Mehdizadeh-Rad, J. Singh – Energy and Resources Institute, College of Engineering, IT and Environment, Charles Darwin University, Darwin, NT, Australia)

Chapter 10. Enhancing Power Conversion Efficiency of Bulk Hetero Junction (BHJ) Organic Solar Cells (OSCs) by Simulation
(K. Sreedhar Ram, J. Singh – College of Engineering, IT and Environment, Charles Darwin University, Darwin, Australia, et al.)

Index

Editor’s Orchid ID

Editor Jai Singh: https://orcid.org/0000-0002-3968-8952

Additional information

Binding

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