Description |
1 online resource (472 pages) |
Series |
Optical science and engineering (CRC Press) |
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Optical science and engineering (CRC Press)
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Contents |
Chapter 1 Introduction -- chapter NOVAMETHODONATVRAM -- AC MOTVM FLVIDI ELECTRICI IN VESTIGANDI -- chapter 10 jam -- chapter 2 Xerographic Photoreceptors -- chapter 3 Charge Acceptance and Dark Discharge / A. Charge Acceptance B. Dark Discharge -- chapter 4 Photoinduced Discharge -- chapter 5 Photogeneration Theories -- chapter III GEMINATE RECOMBINATION -- chapter Figure 1 -- chapter Figure 2 -- chapter Figure 3 The temperature dependencies of the photogeneration efficiency predicted -- chapter Figure 4 -- chapter C Time Dependent Models -- chapter Figure 11 -- chapter 6 Photogeneration in Organic Solids -- chapter X (nm) -- chapter Photon energy (eV) -- chapter Photon energy (eV) Photon energy (eV) -- chapter C Polymers -- chapter Figure 11 -- chapter E (V/cm) -- chapter (nm) -- chapter E (104V/cm) -- chapter Figure 15 -- chapter Figure 16 -- chapter Figure 17 -- chapter (nm) -- chapter Photon energy (eV) -- chapter Figure 21 -- chapter Figure 22 -- chapter Table 1 -- chapter 7 Charge Transport Theories -- chapter Figure 1 -- chapter B. The Scher-Montroll Formalism -- chapter 8 Charge Transport in Polymers and Related Materials -- chapter P(A) -- chapter Concentration (% DEH) -- chapter icr5r -- chapter " (10) -- chapter REFERENCES -- chapter 10 Photoreceptor Preparation -- chapter 11 Photoreceptors -- chapter (a) x (nm) (b) E (V/cm) -- chapter ____ -- chapter (degree); CuKa (nm) -- chapter 12 Fatigue -- chapter 13 Summary and Future Requirements -- chapter APPENDICES Chemical Structures, Chemical Names,8 and Acronyms*? for Materials Used in the Fabrication of Organic Photoreceptors |
Summary |
This reference covers in detail the preparation and application of current and emerging organic materials used as xerographic photoreceptors, emphasizing the photo-electric properties of organic solids and evaluating their potential use in xerography.;Reviewing the development of xerography and the steps in the xerographic process, this volume: summarizes the properties, advantages and disadvantages of various classes of materials used as photoreceptors; describes the methods of characterizing the sensitometry of xerographic photoreceptors; examines the physics and chemistry of photogeneration and charge transport processes; and elucidates the sensimetry of different classes of organic materials.;Organic Photoreceptors for Imaging Systems is intended for imaging scientists, optical engineers and physicists, organic chemists, materials scienctists and students in these disciplines |
Bibliography |
Includes bibliographical references and index |
Subject |
Organic compounds.
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Toners (Xerography) -- Materials
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organic compounds.
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SCIENCE -- Life Sciences -- Biology -- Molecular Biology.
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TECHNOLOGY & ENGINEERING -- Lasers & Photonics.
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SCIENCE -- Optics.
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TECHNOLOGY -- Lasers.
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Organic compounds
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Toners (Xerography) -- Materials
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Form |
Electronic book
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ISBN |
9781482277395 |
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1482277395 |
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9781315214580 |
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131521458X |
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9781351830478 |
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1351830473 |
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9781351821780 |
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1351821784 |
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