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Model of Electrophotographic Binder Layers

  • V. Gaidelis , E. Meskuotiene , D. Jurevicius and Z. Pocius
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Current problems in electrophotography
This chapter is in the book Current problems in electrophotography
© 2018 Walter de Gruyter GmbH, Berlin/Munich/Boston

© 2018 Walter de Gruyter GmbH, Berlin/Munich/Boston

Chapters in this book

  1. Frontmatter I
  2. Preface V
  3. Eggert Celebration VII
  4. List of Authors IX
  5. List of Participants XI
  6. List of Donors XIII
  7. Contents XIV
  8. Image Technology for the Humanity 1
  9. Current Theories Concerning Charge/Discharge Phenomena in Xerography 7
  10. The Function of Depth in Electrophotographic ZnO-Binder Layers 21
  11. Dark Decay in Electrophotographic Zinc Oxide Layers. Mechanism and Mathematical Model 28
  12. The Discharge Mechanism of Se Electroradiographic Layers Irradiated by X-rays 39
  13. X-Ray Induced Discharge of Amorphous Selenium Layers 48
  14. The Measurement of the Charging and Discharging Characteristics of Photoconductive Layers 55
  15. Surface and Related Phenomena on Zinc Oxide 61
  16. Surface Properties of Zinc Oxide Crystals 73
  17. Electronic and Structural Properties of the ZnO polar Surfaces 81
  18. On the Dark Decay of Negatively Charged ZnO Single Crystals 89
  19. Analysis of Electrophotographic Discharge by Independent Measurement of Surface Charge and Surface Voltage 102
  20. Electrophotographic Properties of Amorphous Selenium-Sulfur Layers 112
  21. Model of Electrophotographic Binder Layers 115
  22. Investigation of Space Charge Formation and its Distribution in Electrophotographic Layers 126
  23. Dielectric Properties and Quantum Efficiency of ZnO-Binder-Layers 133
  24. Latent Image Formation Mechanism in As2Se3 Electrophotographic Layers 139
  25. Dye Sensitization Problems in the Photoconduction of Zinc Oxide 146
  26. On the Mechanism of Dye-Sensitization of Photoconductivity of Poly-N-Vinylcarbazole 163
  27. Dye Sensitization of Zinc Oxide by Means of the Electrochemical Cell Technique 178
  28. The Present Status of Organic Photoconductors in Electrophotography 194
  29. Dependence of Photoconductivity on Molecular Weight of Poly-N-Vinyl-Carbazole 215
  30. Electrophotographic Behavior of Bromopyrene Resin Acceptor Complexes 219
  31. Aging of Organic Photoconductors 232
  32. EPR Investigations of Photoconducting Charge-Transfer Complexes 244
  33. Charge Carrier Formation in Oxadiazole 250
  34. Organic-Inorganic Photoconductor Systems 256
  35. Electrophotographic Properties of Copper Phthalocyanine-Zinc Oxide Systems 271
  36. Phthalocyanine-Binder Photoreceptors for Xerography 287
  37. The Photoconductivity of Metal Chelates 301
  38. High Sensitivity Electrophotographic Development 322
  39. Particle Charge and Stability of Liquid Developers in Electrophotography 336
  40. Sensitized Photolysis on Semiconductors as Analogy to the Conventional Photographic Process 347
  41. Computer Simulation of the Electrophotographic Process in a Simple Model 353
  42. Electrophotographic Process with Quantum Efficiency More than Unity 374
  43. Some Remarks to an Analog Model of a ZnO-Binder Layer 380
  44. A Comment on the Limited Utility of Surface Potential-Exposure Measurements 383
  45. Continuous Tone Images with Electrophotographic Layers 386
  46. Backmatter 388
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