3 edition of Organic photorefractive materials and xerographic photoreceptors found in the catalog.
Includes bibliographical references and index.
|Statement||Stephen Ducharme, James W. Stasiak, chairs/editors ; sponsored and published by SPIE--the International Society for Optical Engineering.|
|Series||Proceedings / SPIE--the International Society for Optical Engineering ;, v. 2850, Proceedings of SPIE--the International Society for Optical Engineering ;, v. 2850.|
|Contributions||Ducharme, Stephen., Stasiak, James W., Society of Photo-optical Instrumentation Engineers.|
|LC Classifications||TA455.P58 O66 1996|
|The Physical Object|
|Pagination||v, 212 p. :|
|Number of Pages||212|
|LC Control Number||96068348|
Both the PVK:TNF and the aggregate photoreceptors were coated on a flexible web substrate. and then fabricated into a loop configuration. The PVK:TNF and dye-polymer aggregate technologies demonstrated the suitability of organic photoreceptors for high-volume, highquality xerographic . This book provides comprehensive, state-of-the art coverage of photorefractive organic compounds, a class of material with the ability to change their index of refraction upon illumination. The change is both dynamic and reversible.
Organic photoconductive materials* Rafik 0. Loutfy, Ah-Mee Hor, Cheng-Kuo Hsiao, Giuseppa Baranyi and Peter Kazmaier Xerox Research Centre of Canada, Speakman Drive, Mississauga, Ontario L5K 2L1, CANADA Abstract - A brief survey of the fabrication, evaluation and uses of organic photoconductive materials as xerographic photoreceptors is given. Space charge field formation in poly(N-vinylcarbazole)-based photorefractive composites: Published in: ORGANIC PHOTOREFRACTIVE MATERIALS AND XEROGRAPHIC PHOTORECEPTORS, 24 - Series: PROCEEDINGS OF THE SOCIETY OF PHOTO-OPTICAL INSTRUMENTATION ENGINEERS (SPIE), SPIE - INT SOC OPTICAL ENGINEERING: Author.
XEROGRAPHIC PHOTORECEPTORS AND PHOTOREFRACTIVE POLYMERS. Moerner WE, GrunnetJepsen A, Thompson CL, Twieg RJ. Mechanisms of photorefractivity in polymer composites. ORGANIC PHOTOREFRACTIVE MATERIALS AND XEROGRAPHIC PHOTORECEPTORS. ; 1: 3: 0: 0 Synthesis and properties of some composite organic photorefractive. Photorefractive Organic Materials and Applications. by. Springer Series in Materials Science (Book ) Share your thoughts Complete your review. Tell readers what you thought by rating and reviewing this book. Rate it * You Rated it *.
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.complete, updated, and lucidan excellent reference for an advanced undergraduate or graduate student in physics, materials science, chemistry or any related areashould provide valuable to those of us involved in using organic charge transport materials in research involvingxerography, photorefractivity or electroluminescent.
Presents fundamental, as well as state-of-the-art, information on the physics, chemistry, materials, fabrication, preparation, application and performance of organic photoreceptors in xerography. The book offers on-the-job situations to problems related to xerographic photoreceptors and related technologies, including electroluminescent, photorefractive, photovoltaic and transistor devices.
Xerographic photoreceptors and organic photorefractive materials II: JulySan Diego, California. Get this from a library. Organic photorefractive materials and xerographic photoreceptors: AugustDenver, Colorado.
[Stephen Ducharme; James W Stasiak; Society of Photo-optical Instrumentation Engineers.;]. Organic photorefractive materials: New materials ; Photorefractive performance ; Charge transport and trapping ; Poster session A --Xerographic photoreceptors: Transport ; Generation and injection ; Poster session B --Linear optical properties of waveguides and fibers: Planar waveguide devices: passive ; Planar waveguide devices: active.
The preparation of organic photoreceptors is described, followed by a review of the xerographic sensitometry of different classes of organic materials. The emphasis of the book is directed to the photoelectronic properties of organic solids and a comparison of these properties with the requirements of the xerographic process.
Carbazole-based polymers have played a significant role in the development of polymeric light emitting diodes  and organic photorefractive materials . Carbazole-containing polymers have also been studied as the components of photovoltaic devices in addition to electrophotographic photoreceptors and photorefractive materials [90,91].
Orientational confinement of NLO molecules, both for a maximum EO effect and as a low barrier to photo-induced charge generation and transport, is considered a key principle in the design of potentially efficient organic photorefractive crystals.
Proc. SPIEOrganic Photorefractive Materials and Xerographic Photoreceptors, pg (15 October ); doi: / Read Abstract + Spectral sensitivity is an important consideration in photoconductor formulation, depending on the particular type of electrophotographic device in which the photoconductor is to be used.
This chapter gives an overview of organic materials, focusing on molecular materials for use in optoelectronic devices such as organic photoreceptors, organic photovoltaic devices (OPVs), and organic light-emitting diodes (OLEDs).
A description of the historical development of organic optoelectronics is provided. Then we will discuss the performance of a new class of organic photorefractive materials: photorefractive polymer dispersed liquid crystals.
Finally, we will present two examples of applications based on photorefractive polymers: (i) optical correlators for security verification, and (ii) imaging through scattering media in the near infra-red. 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.
Xerographic Photoreceptors and Organic Photorefractive Materials IV 22 July | San Diego, CA, United States Xerographic Photoreceptors and Oragnic Photorefractive Materials II.
23 October Progress in organic photorefractive material development Bernard Kippelen, Jon A. Herlocker, Jose-Luis Maldonado, Kyle B. Ferrio, Eric Hendrickx, Stephane Mery, A. Golemme, Seth R. Marder, Nasser Peyghambarian.
Date Published: 15 October PDF: 8 pages Proc. SPIEOrganic Photorefractive Materials and Xerographic Photoreceptors, (15 October ); doi: / adshelp[at] The ADS is operated by the Smithsonian Astrophysical Observatory under NASA Cooperative Agreement NNX16AC86A.
Proceedings of SPIE - The International Society for Optical Engineering, vol.pp.Organic Photorefractive Materials and Xerographic Photoreceptors, Denver, CO, USA, 8/7/ Darwish AM, Kukhtarev NV, Copland R, Sliz R, Venkateswarlu P, Williams A et al.
Temperature dependence investigation of the electron paramagnetic resonance of. History. Although the physics behind the photorefractive effect were known for quite a while, the effect was first observed in in LiNbO 3. For more than thirty years, the effect was observed and studied exclusively in inorganic materials, untilwhen a nonlinear organic crystal 2-(cyclooctylamino)nitropyridine (COANP) doped with 7,7,8,8-tetracyanoquinodimethane exhibited the.
: Organic Photoreceptors for Imaging Systems (Optical Science and Engineering) (): Borsenberger: Books. My role was to review work on nanoscale properties of organic and biocompatible ferroelectric polymers. Co-Chair & Co-Editor (, 5 Vol.): SPIE Symposium on Organic Photorefractive Materials and Xerographic Photoreceptors, with P.
Borsenberger (, J. Stasiak (), D. Dunlap and R. Norwood (). Control of charge trapping in a novel photorefractive composite consisting of a bifunctional molecule based on TPD: Published in: ORGANIC PHOTOREFRACTIVE MATERIALS AND XEROGRAPHIC PHOTORECEPTORS, 69 - Series: PROCEEDINGS OF THE SOCIETY OF PHOTO-OPTICAL INSTRUMENTATION ENGINEERS (SPIE), SPIE - INT SOC OPTICAL ENGINEERING: Author.Presents fundamental, as well as state-of-the-art, information on the physics, chemistry, materials, fabrication, preparation, application and performance of organic photoreceptors in xerography.
The book offers on-the-job situations to problems related to xerographic photoreceptors and related technologies, including electroluminescent.Included are a discussion of the basic physics and materials parameters required for operational devices and the methods of fabrication.
The review includes current material classes such as chalcogenides and organic solids and new potential photoreceptors based on hydrogenated amorphous silicon.