Photoconductivity and Photoconductive Materials, 2 Volume Set: Fundamentals, Techniques and Applications

Author:   Safa O. Kasap (University of Saskatchewan) ,  Arthur Willoughby (University of Southampton) ,  Peter Capper (BAE Systems Ltd, UK)
Publisher:   John Wiley & Sons Inc
ISBN:  

9781119579113


Pages:   912
Publication Date:   21 July 2022
Format:   Hardback
Availability:   Out of stock   Availability explained
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Photoconductivity and Photoconductive Materials, 2 Volume Set: Fundamentals, Techniques and Applications


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Overview

Explore an authoritative resource with coverage of foundational concepts of photoconductivity and photoconductive materials In Photoconductivity and Photoconductive Materials, Professor Kasap delivers a definitive guide to the basic principles of photoconductivity and a selection of present topical photoconductive materials. Divided into two parts, the set begins with basic concepts and definitions and coverage of characterization using steady state, transient and modulated photoconductivity techniques, including the novel charge extraction by linearly increasing voltage (CELIV) method The physics of terahertz photoconductivity and fundamentals of organic semiconductors lsois are also covered. Part Two of the set starts with a comprehensive review of a wide range of photoconductive materials and then focuses on some of the most important photoconductors, including hydrogenated amorphous silicon, cadmium mercury telluride, various x-ray photoconductors, diamond films, metal halide perovskites, nanowires and quantum dots. Photoconductive antenna application is also included. Filled with contributions from leading authors in the field, this book also offers: A thorough introduction to the characterization of semiconductors from photoconductivity techniques, including uniform illumination and photocarrier grating techniques Comprehensive explorations of organic photoconductors, including photogeneration, transport, and applications in printing Practical discussions of time-of-flight transient photoconductivity, including experimental techniques and interpretation In-depth examinations of transient photoconductivity of organic semiconducting films and novel transient photoconductivity techniques Perfect for research physicists, materials scientists, and electrical engineers, Photoconductivity and Photoconductive Materials is also an indispensable resource for postgraduate and senior undergraduate students working in the area of optoelectronic materials, as well as researchers working in industry.

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Author:   Safa O. Kasap (University of Saskatchewan) ,  Arthur Willoughby (University of Southampton) ,  Peter Capper (BAE Systems Ltd, UK)
Publisher:   John Wiley & Sons Inc
Imprint:   John Wiley & Sons Inc
Dimensions:   Width: 17.00cm , Height: 5.40cm , Length: 24.40cm
Weight:   2.013kg
ISBN:  

9781119579113


ISBN 10:   1119579112
Pages:   912
Publication Date:   21 July 2022
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock   Availability explained
The supplier is temporarily out of stock of this item. It will be ordered for you on backorder and shipped when it becomes available.

Table of Contents

Volume 1 Preface xiii Series Preface xvi List of Contributors xvii 1 Photoconductivity: Fundamental Concepts 1 Safa O. Kasap Abbreviations 1 1.1 Introduction 2 1.2 Major Photoconductivity Classifications 10 1.3 Dark Current and Electrical Contacts 13 1.3.1 Injecting Contacts 13 1.3.2 Noninjecting Contacts 18 1.4 Shockley–Ramo Theorem 24 1.5 Major Recombination Mechanism 27 1.5.1 Direct Recombination 27 1.5.2 Indirect Recombination in Semiconductors: Shockley–Read–Hall Model 30 1.5.2.1 Weak Photogeneration 33 1.5.2.2 Strong Photogeneration 36 1.5.3 Impact or Auger Recombination 37 1.6 Quasi-Fermi Levels and Distribution of Recombination Centers in Energy 39 1.6.1 Quasi-Fermi Levels for Free Carriers 39 1.6.2 Quasi-Fermi Levels (QFLs) for Trapped Carriers in the Presence of Localized States 40 1.6.3 Demarcation Energy and Dead Carriers 46 1.7 Elementary Photoconductor with Ohmic Contacts and Absorption Transverse to Applied Field 47 1.7.1 Elementary Photoconductivity Without Diffusion 47 1.7.2 Elementary Photoconductivity with Diffusion 51 1.8 Elementary Photoconductor with Noninjecting Contacts and Optical Absorption Along the Field 53 1.9 Absorbed Light Intensity with Rear Reflection 56 1.10 Photoconductive Gain 58 1.11 Effects of Traps on Photoconductivity 60 1.12 Sinusoidally Modulated Photoexcitation: Frequency-Resolved Photoconductivity 62 1.13 Noise in Photoconductors 69 Ackowledgments 78 References 78 2 Characterization of Semiconductors from Photoconductivity Techniques: Uniform and Monochromatic Illumination 89 Christophe Longeaud, Javier Schmidt, and Jean-Paul Kleider 2.1 Introduction 89 2.2 Steady-State Photoconductivity (SSPC) 92 2.2.1 Basic Equations 93 2.2.2 DOS Determination 96 2.2.3 Illustration by Means of Simulations 97 2.3 Modulated Photocurrent (MPC) 100 2.3.1 High-Frequency Regime (HF-MPC) 104 2.3.2 Low-Frequency Regime (LF-MPC) 106 2.3.3 Summary of the Two MPC Regimes 107 2.3.4 Illustration by Means of Simulations 108 2.3.5 Experimental Results 114 2.3.5.1 Application to a Crystalline Material 114 2.3.5.2 Application to Amorphous Thin Films 116 2.4 Conclusion 119 Symbols and Abbreviations 120 Acknowledgments 122 References 122 3 Characterization of Semiconductors from Photoconductivity Techniques: Uniform and Polychromatic Illumination 125 Christophe Longeaud, Javier Schmidt, and Jean-Paul Kleider 3.1 Introduction 125 3.2 The Constant Photocurrent Method (CPM) 126 3.2.1 CPM Principle 126 3.2.2 Absolute CPM 130 3.2.3 Determination of the DOS from a CPM Spectrum 131 3.2.3.1 Deconvolution of a CPM Spectrum 131 3.2.3.2 Calculation of the Excess Absorption 132 3.2.3.3 Absorption at a Single Energy 132 3.2.4 Limits of the CPM 133 3.2.5 AC CPM vs. DC CPM 133 3.3 The Fourier-Transform Photocurrent Spectroscopy (FTPS) 134 3.3.1 FTPS Bases 134 3.3.2 FTPS Bench 137 3.3.3 Experimental Results 138 3.3.3.1 Comparison of Calibrations with Transmitted or Direct Flux 138 3.3.3.2 Comparison of FTPS Performed on Thin Films and Solar Cells 140 3.3.3.3 Application of FTPS to the Study of Perovskite Thin Films 143 3.4 Conclusion 147 Symbols and Abbreviations 147 Acknowledgments 148 References 149 4 Characterization of Semiconductors from Photoconductivity Techniques: Photocarrier Grating Techniques 151 Christophe Longeaud, Javier Schmidt, and Jean-Paul Kleider 4.1 Introduction 151 4.2 Steady-State Photocarrier Grating (SSPG) 154 4.2.1 Fundamentals 154 4.2.2 Description of an Automated SSPG Bench 157 4.2.3 Use of the SSPG Technique to Derive the DOS 159 4.3 Modulated Photocarrier Grating (MPG) 162 4.4 Moving Grating Technique (MGT) 164 4.5 Oscillating Photocarrier Grating (OPG) 167 4.6 DOS Determination from the Small Signal Recombination Lifetime 171 4.7 Conclusions 174 Symbols and Abbreviations 175 Acknowledgments 177 References 177 5 Time-of-Flight Transient Photoconductivity Technique 179 Safa O. Kasap 5.1 Basic Principles 179 5.2 Shallow Traps, Effective Drift Mobility, and Effective Lifetime 187 5.2.1 Effective Drift Mobility 187 5.2.2 Deep Trapping in the Presence of Shallow Traps 192 5.3 Exponential Absorption: exp(−αx) 195 5.4 Continuity Equation Formalism Under Multiple Trapping 197 5.5 Generalized Quasi-equilibrium Transport 202 5.6 Anomalous Dispersion and Thickness Dependent TOF Drift Mobility 206 5.7 Experimental Implementation and Artifacts 212 5.7.1 Single-Shot TOF Experiments and Apparatus 213 5.7.2 Operational Definition of Transit Time 215 5.7.3 Finite Photogeneration Depth (δ) 219 5.7.4 Finite Photoexcitation Duration 220 5.7.5 Maximum I-Mode and V -Mode Signals 221 5.7.6 RC Time Constant and Instrument Bandwidth 222 5.8 Xerographic Time-of-Flight Experiment 223 5.9 Lateral or Coplanar Time-of-Flight (CTOF) 226 5.10 Time-of-Flight Study of Recombination: Double Photoexcitation 228 5.11 Interrupted Field Time-of-Flight (IFTOF) 231 5.12 Space Charge Perturbed Photocurrents 234 5.13 Charge Collection Efficiency (CCE) 237 5.14 Monte Carlo Simulation of Carrier Transport 241 Acknowledgments 245 References 245 6 Transient Photocurrent of Disordered Semiconducting Thin Films with Coplanar Electrode Configurations 253 Hayate Fujimura, Takashi Nagase, and Hiroyoshi Naito 6.1 Introduction 253 6.2 Theory of Laplace Transform Methods 255 6.2.1 Determination of Localized-State Distribution 255 6.2.2 Determination of Localized-State Distribution with High Energy Resolution 258 6.2.3 Determination of Free Carrier Lifetime 259 6.2.4 Determination of Drift Mobility 260 6.2.4.1 Uniform Optical Excitation Between Coplanar Electrodes with a Blocking Contact 260 6.2.4.2 Optical Excitation Near an Electrode 261 6.3 Numerical Calculation of Transient Photocurrent 261 6.3.1 Localized-State Distribution 261 6.3.2 Free Carrier Lifetime 266 6.3.3 Drift Mobility 266 6.3.3.1 Uniform Excitation 266 6.3.3.2 Local Excitation 268 6.4 Experimental Results 269 6.4.1 Localized-State Distribution 269 6.4.2 Free Carrier Lifetime 270 6.4.3 Drift Mobility 271 6.4.3.1 Uniform Excitation 271 6.4.3.2 Local Excitation 271 6.5 Conclusions 272 References 273 7 Organic Photoconductors: Photogeneration, Transport, and Applications in Printing 275 David S. Weiss 7.1 Introduction: Organic Photoconductors (OPC) 275 7.1.1 OPC Structure, Photodischarge Physics, and Process Considerations 276 7.2 History of Electrophotography and OPC Developments 281 7.2.1 Electrophotography 281 7.2.2 Electrophotographic Copying and Printing 282 7.2.3 OPC Development 283 7.3 OPC Photogeneration Efficiency and Mechanisms 287 7.3.1 OPC Charge Generation: Hole Transporting Materials (Aromatic Amines) 289 7.3.2 OPC Charge Generation: Molecular Complexes 290 7.3.2.1 PVK–TNF 291 7.3.2.2 Dye–Polymer Aggregate 294 7.3.3 OPC Charge Generation: Pigments 295 7.3.3.1 Azo Pigments 296 7.3.3.2 Phthalocyanine Pigments 297 7.3.3.3 Perylene Pigments 300 7.3.3.4 Squaraine Pigments 301 7.3.4 Summary of Charge Generation Mechanism in OPCs 301 7.4 Dark Conductivity 303 7.5 Charge Transport 304 7.5.1 Charge Transport Experimental Methods 304 7.5.2 Theory: Charge Transport in Organic Semiconductors 307 7.5.3 Charge Transport in Molecularly Doped Polymers (MDP) and Polymers 312 7.5.3.1 Hole Transport: MDPs and Polymers 312 7.5.3.2 Electron Transport: MDPs and Polymers 314 7.5.3.3 Bipolar Transport: MDPs and Polymers 315 7.6 Charge Transport Disruptions 317 7.6.1 Medium and Polarity Effects 317 7.6.2 Charge Trapping 318 7.7 OPC Charge Transport 318 7.7.1 Disruptions of OPC Functionality 320 7.7.1.1 OPC Photofatigue 321 7.7.1.2 OPC Corona Chemical Fatigue 322 7.8 OPC New Materials Applications 324 7.9 OPC New Printing Applications and Future Developments 326 7.9.1 Current OPC Printing Applications 326 7.9.2 New OPC Printing Applications 327 References 328 8 Charge Extraction by Linearly Increasing Voltage (CELIV) Method for Investigation of Charge Carrier Transport and Recombination in Disordered Materials 339 Oleksandr Grynko, Gytis Juška, and Alla Reznik 8.1 Introduction 339 8.2 Charge Extraction by Linearly Increasing Voltage (CELIV) Technique 341 8.2.1 Dark-CELIV 341 8.2.2 Dark-CELIV Measurements in Low-Conductivity Materials 344 8.2.3 Dark-CELIV Measurements in High-Conductivity Materials 345 8.3 Photo-CELIV 349 8.3.1 Photo-CELIV: Surface vs. Bulk Photogeneration 351 8.3.2 Photo-CELIV in the Case of Langevin Recombination 354 8.3.3 Photo-CELIV in the Case of Electric Field-Dependent Mobility 357 8.3.4 Analysis of Photo-CELIV for Dispersive Transport 359 8.4 i-CELIV 361 8.5 Summary 367 References 367 9 Terahertz Photoconductivity 369 David G. Cooke 9.1 THz Pulses 369 9.2 Drude Conductivity of Free Charges 371 9.3 ac Conductivity of Bound Charges: Lorentz Response 373 9.4 Generation and Detection Techniques 373 9.4.1 Photoconductive Switches 373 9.4.2 Nonlinear Generation and Detection of THz Pulses 375 9.4.3 Tilted Pulse Front Optical Rectification 376 9.4.4 Ultra-Broadband THz Pulses 378 9.4.5 Air Plasma Generation and Detection 378 9.5 Terahertz Spectroscopy 379 9.5.1 Time-Domain THz Spectroscopy 379 9.5.2 Time-Resolved THz Spectroscopy 381 9.6 Transient Photoconductivity: Semiconductors 384 9.6.1 Carrier Trapping and Diffusion 387 9.6.2 Plasmon and Optical Phonon Dynamics 388 9.6.3 Polarons 390 9.6.4 Excitons 392 9.6.5 Semiconductor Nanostructures 394 9.7 Conclusions 396 References 397 Volume 2 Preface xiii Series Preface xvii List of Contributors xix 10 Photoconductive Materials 399 Alan Owens 11 Photoconductivity of Nanowire Systems 493 Harry E. Ruda 12 Photoconductivity of Semiconductor Nanocrystals 523 Richard J. Curry 13 Persistent Photocurrents and Defects 549 Ruben J. Freitas and Koichi Shimakawa 14 Photoconductivity in the Infrared: Mercury Cadmium Telluride 577 Peter Capper 15 X-ray Photoconductivity and Typical Large-Area X-ray Photoconductors 613 Zahangir Kabir 16 Progress in Lead Oxide X-Ray Photoconductive Layers 643 Oleksandr Grynko and Alla Reznik 17 Diamond Radiation Detectors 689 Gabriele Chiodini and Maurizio Martino 18 Doped and Stabilized Amorphous Selenium Single and Multilayer Photoconductive Layers for X-Ray Imaging Detector Applications 715 Safa O. Kasap 19 Metal Halide Perovskites for Photodetection 781 Qianqian Lin 20 Photoconductive Antennas for Terahertz Applications 807 Roger Lewis 21 Phthalocyanines: A Class of Organic Photoconductive Materials 831 Asim K. Ray, Debdyuti Mukherjee, and Sujoy Sarkar Index 853

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Safa Kasap, PhD, DSc, is a Distinguished Professor in Electronic and Optoelectronic Materials and Devices at the University of Saskatchewan in Canada. He has over 35 years' experience in optoelectronic materials and is Editor-in-Chief for Journal of Materials Science: Materials in Electronics.

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