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Intrinsically Conducting Polymers: An Emerging Technology PDF

233 Pages·1993·10.799 MB·English
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Intrinsically Conducting Polymers: An Emerging Technology NATO ASI Series Advanced Science Institutes Series A Series presenting the results of activities sponsored by the NATO Science Committee, which aims at the dissemination of advanced scientific and technological knowledge, with a view to strengthening links between scientific communities. The Series is published by an international board of publishers in conjunction with the NATO Scientific Affairs Division A Life Sciences Plenum Publishing Corporation B Physics London and New York C Mathematical Kluwer Academic Publishers and Physical Sciences Dordrecht, Boston and London D Behavioural and Social Sciences E Applied Sciences F Computer and Systems Sciences Springer-Verlag G Ecological Sciences Berlin, Heidelberg, New York, London, H Cell Biology Paris and Tokyo I Global Environmental Change NATO-PCO-DATA BASE The electronic index to the NATO ASI Series provides full bibliographical references (with keywords and/or abstracts) to more than 30000 contributions from international scientists published in all sections of the NATO ASI Series. Access to the NATO-PCO-DATA BASE is possible in two ways: - via online FILE 128 (NATO-PCO-DATA BASE) hosted by ESRIN, Via Galileo Galilei, 1-00044 Frascati, Italy. - via CD-ROM "NATO-PCO-DATA BASE" with user-friendly retrieval software in English, French and German (©WTV GmbH and DATAWARE Technologies Inc. 1989). The CD-ROM can be ordered through any member of the Board of Publishers or through NATO-PCO, Overijse, Belgium. Series E: Applied Sciences -Vol. 246 Intrinsically Conducting Polymers: An Emerging Technology edited by M. Aldissi Champlain Cable Corporation, Colchester, Vermont, U.S.A. Springer-Science+Business Media, B.V. Proceedings of the NATO Advanced Research Workshop on Applications of Intrinsically Conducting Polymers Burlington, Vermont, U.S.A. October 12-15, 1992 A C.I.P. Catalogue record for this book is available from the Library of Congress. ISBN 978-90-481-4316-0 ISBN 978-94-017-1952-0 (eBook) DOI 10.1007/978-94-017-1952-0 All Rights Reserved © 1993 Springer Science+Business Media Dordrecht Originally published by Kluwer Academic Publishers in 1993 Softcover reprint of the hardcover 1st edition 1993 No part of the material protected by this copyright notice may be reproduced or utilized in any form or by any means, electronic or mechanical, including photo copying, recording or by any information storage and retrieval system, without written permission from the copyright owner. TABLE OF CONTENTS Preface vii List of Participants ix List of Contributors xiii Synthesis, properties and applications of perconjugated 1 systems H. Naarmann Functionalizations of conducting polymers by mesoscopically 13 structural control and by molecular combination of reactive moiety T. Shimidzu, T. Iyoda, H. Segawa and M. Fujitsuka Characterization and application of polypyrrole-coated 25 textiles H. H. Kuhn Potential applications of conducting polymer colloids 35 S. P. Armes Processing of polyanilines 45 V. G. Kulkarni Inclusion of conducting polymers in inorganic hosts: towards 51 conducting nanostructures T. Bein and P. Enzel The separation of gases using conducting polymer films 61 B. R. Mattes, M. R. Anderson, H. Reiss and R. B. Kaner Intrinsically conducting polymers: from fundamental to 75 applied research E. M. Genies Conjugated polymer light-emitting diodes 87 A. R. Brown, N. C. Greenham, R. W. Gymer, K. Pichler, D. D. C. Bradley, R. H. Friend, P. L. Burn, A. Kraft and A. B. Holmes Molecular engineering of organic semiconductors 107 F. Garnier, F. Deloffre, A. Yassar, G. Horowitz and R. Hajlaoui Blue electroluminescence with polyconjugated materials 117 G. Leising Organic multilayer-dye electroluminescent diodes: is there 123 any difference with polymer LED? T. Tsutsui and S. Saito The chemical and electronic structure of metal/conjugated 135 polymer interfaces: a joint theoretical and experimental study R. Lazzaroni, C. Fredriksson, A. Calderone, J.-L. Bredas, P. Dannetun, M. Boman, S. Stafstrom andY. R. Salaneck Application of conducting polyanilines in computer 147 manufacturing M. Angelopoulos Conducting polymers for molecular electronics 157 S. Roth, J. Anders and H. J. Byrne Polyanilines: recent advances in processing and applications 165 to welding of plastics A. J. Epstein, J. Joo, C.-Y. Yu, A. Benatar, C. F. Faisst, Jr., J. Zegarski, and A. G. MacDiarmid Electrochemomechanical and electrochemopositioning devices: 179 artificial muscles T. F. Otero and J. Rodr{guez A highly thermostable aluminum solid electrolytic capacitor 191 with an electroconducting polymer electrolyte Y. Kudoh, M. Fukuyama, T. Kojima, N. Nanai and S. Yoshimura Polymer based xerographic photoreceptors 209 M. A. Abkowitz Subject index 223 PREFACE This book contains the majority of the papers presented at the NATO Ad vanced Research Workshop (ARW) held in Burlington, Vermont, USA on October 12-15, 1992. This ARW was the first of its kind to address the subject of intrinsically conducting polymers with an emphasis on processing and technological applications. The NATO ARW format was followed in that the subjects addressed here were limited in number but discussed in detail with the attendance being limited to a small number of selected scientists. The ARW brought together lecturers who are leaders in their respective fields from a wide range of NATO and non-NATO countries (a total of 11 countries) with the support of the NATO Scientific Affairs Division and some support from Champlain Cable Corporation. The total number of par ticipants was 33 and the number of presentations was 24. The speakers were chosen based on the topics selected for this workshop and repre sented industry, universities and government laboratories. The field of conducting polymers has grown rapidly during the past few years with important developments in materials processing and fabrica tion that brought about active research programs focusing on the use of these polymers as "smart" materials in technological applications and devices in academic and industrial research laboratories. The nature of NATO sponsored workshops is such that all aspects of the subject are discussed. Therefore, basic materials science of conducting polymers is treated, thus giving a solid basis for the treatment of the main subject which consists of present and future applications. The topics discussed consisted of important aspects of materials chemistry and processing, electronic structure and applications including photolu minescence, elctroluminescence, artificial muscles, plastics joining/welding, gas separation, microwave properties, capacitors, microlithography, electrophotography and immunodiagnostics. The work shop closed with a stimulating round-table discussion to summarize what was discussed and what role conducting polymers could play in future technology as intelligent materials or structures and as intrinsically adaptive materials. I would like to thank all contributors and participants for their help in promoting an exciting meeting. Also, I would like to thank the orga nizing committee for their help throughout the preparation for the work shop in suggesting speakers and topics. Members of the committee are Dr. R. H. Friend (Cambridge University, U.K.) , Dr. F. Garnier (CNRS, France), Dr. A. G. MacDiarmid (University of Pennsylvania, USA), and Dr. S. Roth (Max-Planck, Germany). M. Aldissi vii LIST OF PARTICIPANTS M. Abkowitz H. Bleier Xerox Corp. Ciba Geigy AG 800 Phillips Road Materials research Webster, NY 14580 CH-4002 Basel USA Switzerland M. Aldissi F. X. Bronold Champlain Cable Corp. Los Alamos National Laboratory 12 Hercules Drive P. 0. Box 1663, MS B262 Colchester, VT 05446 Los Alamos, NM 87545 USA USA M. Angelopoulos I. Campbell IBM Los Alamos National Laboratory P.O.Box 218 P. 0. Box 1663, MEE-11, MS D429 Yorktown Heights, NY 10598 Los Alamos, NM 87545 USA USA H. Antoniadis S. Coca Xerox Corp. Chemical Research Institute 800 Phillips Road Spl. Independentei 202 Webster, NY 14580 Bucharest 77208 USA Romania A. P. Armes N. Colaneri School of Chemistry Uniax Corp. University of Sussex 5375 Overpass Road Brighton BNl 9QJ Santa Barbara, CA 93111 England USA R. Baughman P. G. da Costa Allied-Signal Center for Photoinduced Charge Materials Research Center Transfer Columbia Road and Park Avenue University of Rochester Morristown, NJ 07960 Rochester, NY 14627 USA USA T. Bein M. A. da Silva Chemistry Department Universidade de Coimbra Purdue University Chemistry Department West Lafayette, IN 47907 P-3049 Coimbra Codex USA Portugal IX X A. J. Epstein R. Lazzaroni Department of Physics Depart. des Materiaux et Procedes Ohio State University Universite de l'Etat a Mons 174 West 18th Avenue Avenue Maistriau, 21 Columbus, OH 43210 B-7000 Mons USA Belgium R. H. Friend Cavendish Laboratory G. Leising Cambridge University Institut fur Festkorperphysik Madingley Road Technische Universitat Graz Cambridge CB3 OHE Petergrasse 16 England A-8010 Graz Austria F. Garnier CNRS A. G. MacDiarmid 2 Rue Henry Dunant Department of Chemistry 94320 Thiais 34th & Spruce Streets France University of Pennsylvania Philadelphia, PA 19104-6323 E. M. Genies USA Centre d'Etudes Nucleaires DRFMC/SESM/EM 85X H. Naarmann 38041 Grenoble BASF France Plastics Research Laboratory R. B. Kaner D-6700 Ludwigshafen Department of Chemistry Germany University of California Los Angeles, CA 90024-1569 T. F. Otero USA Dpto. de Ciencia y technologia de Polimeros, Fac. de Quimicas Y. Kudoh P. 0. Box 1072 Matsushita Research Inst. Tokyo, 20080 San Sebastian Inc. Spain Higashimita,Tama-ku Kawasaki 214 S. Roth Japan Max-Planck Institute Heisenbergstr. 1 H. H. Kuhn Postfach 80 06 65 Milliken Research Corp. 7000 Stuttgart 80 P. 0. Box 1927 Germany Mail Stop M 405 Spartanburg, SC 29304 T. Shimidzu USA Division of Molecular Engineering Graduate School of Engineering V. G. Kulkarni Kyoto University Americhem, Inc. Kyoto 606 723 Commerce Drive Japan Concord, NC 28025 USA

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