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Halbleitende Polymere sind ein faszinierendes interdisziplinäres Forschungsgebiet, das kurz vor dem anwendungstechnischen Durchbruch steht. Insbesondere für neue Komponenten in der Photonik und Optoelektronik bieten diese Materialien ein enormes Potential. Dieses zweibändige Handbuch mit Beiträgen herausragender Experten aus den Feldern Organische und Physikalische Chemie, Festkörperphysik bis hin zur Verfahrenstechnik, beschreibt detailliert die Grundlagen, die zum Verständnis und zur Kontrolle dieser faszinierenden Materialien notwendig sind.
List of contents
From the contents:
Poly(arylene vinylene)s - Synthesis and Applications in Semiconductor Devices (M. Murray & A. Holmes).
Oligo- and Poly(phenylene)s (U. Scherf & K. Müllen)
Disorder and Solitons in Trans-Polyacetylene (J. Knoester & M. Mostovoy).
Gas Phase to Solid State Evolution of the Electronic and Optical Properties of Conjugated Chains: A Theoretical Investigation (J. Cornil, et al.).
Electronic Structure of Surfaces and Interfaces in Conjugated Polymers (M. Lögdlund & W. Salaneck).
Electronic Structure and Energy Transfer in Solid -Sexithienyl (C. Taliani, et al.).
Spectroscopy of Photoexcitations in Conjugated Polymers (P. Lane, et al.).
Photophysics of Methyl-Substituted Poly (para-Phenylene)-Type Ladder Polymers (G. Lanzani, et al.).
Solid-State Aspects of Conjugated Semiconductors (W. Graupner, et al.).
Lasing in Conjugated Polymers (U. Lemmer, et al.).
Physics of Polymer Light-Emitting Diodes (I. Campbell & D. Smith).
Charge Transport in Random Org anic Semiconductors (H. Bässler).
The Chemistry, Physics and Engineering of Organic Light-Emitting Diodes (J. Scott & G. Malliaras)
Physics of Organic Field-Effect Transistors (G. Horowitz).
Conjugated Polymer Based Plastic Solar Cells (C. Brabec & N. Sariciftci).
A Model Oligomer Approach to Semiconducting Polymers (P. van Hutten & G. Hadziioannou).
Index.
About the author
Georges Hadziioannou is Director of the Polymer Department and the European School of Chemistry Polymers and Materials (ECPM) since 2001 at Louis Pasteur University in Strasbourg, France. Prior to this appointment, he spent most of the 80s in the USA, first as postdoc at the University of Massachusetts, then as a research staff member for IBM in San José. From 1986 to 1989, he led the Surface and Interface Dynamics group at IBM's Almaden Research Center. Twelve years as professor of polymer chemistry at Groningen University in the Netherlands followed.
He was named Americal Physical Society Fellow in 1994 and received a Humboldt Research Award in 1998. He has authored over 190 scientific papers in peer-reviewed journals, contributed 10 chapters to books and edited the first edition of this book together with P. F. van Hutten in 2000.
George Malliaras studied physics as an undergraduate and did his doctoral research on photorefractivity in polymers. Before joining the faculty at Cornell in 1998, he was a post-doctoral fellow at the University of Groningen (1996) and the Center for Polymer Interfaces and Macromolecular Assemblies (CPIMA), at the IBM Almaden Research Center (1997-98). He is a recipient of the NSF Early Career Development Award, a member of the American Physical Society and of the Materials Research Society.
Summary
Halbleitende Polymere sind ein faszinierendes interdisziplinäres Forschungsgebiet, das kurz vor dem anwendungstechnischen Durchbruch steht. Insbesondere für neue Komponenten in der Photonik und Optoelektronik bieten diese Materialien ein enormes Potential.
Dieses zweibändige Handbuch mit Beiträgen herausragender Experten aus den Feldern Organische und Physikalische Chemie, Festkörperphysik bis hin zur Verfahrenstechnik, beschreibt detailliert die Grundlagen, die zum Verständnis und zur Kontrolle dieser faszinierenden Materialien notwendig sind.
