Conjugated polymers : properties, processing, and applications /
This book covers properties, processing, and applications of conducting polymers. It discusses properties and characterization, including photophysics and transport. It then moves to processing and morphology of conducting polymers, covering such topics as printing, thermal processing, morphology ev...
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| Other Authors: | , , |
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| Format: | Electronic eBook |
| Language: | English |
| Published: |
Boca Raton, FL :
CRC Press,
[2019]
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| Edition: | Fourth edition. |
| Series: | Handbook of conducting polymers.
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| Subjects: | |
| Online Access: | CONNECT |
MARC
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| 245 | 0 | 0 | |a Conjugated polymers : |b properties, processing, and applications / |c edited by John R. Reynolds, Barry C. Thompson, Terje A. Skotheim, |
| 250 | |a Fourth edition. | ||
| 264 | 1 | |a Boca Raton, FL : |b CRC Press, |c [2019] | |
| 300 | |a 1 online resource : |b illustrations | ||
| 336 | |a text |b txt |2 rdacontent | ||
| 337 | |a computer |b c |2 rdamedia | ||
| 338 | |a online resource |b cr |2 rdacarrier | ||
| 490 | 1 | |a Handbook of conducting polymers | |
| 500 | |a Taylor & Francis EBA 2024 | ||
| 504 | |a Includes bibliographical references and index. | ||
| 588 | 0 | |a Online resource; title from PDF title page (EBSCO, viewed April 01, 2019). | |
| 520 | |a This book covers properties, processing, and applications of conducting polymers. It discusses properties and characterization, including photophysics and transport. It then moves to processing and morphology of conducting polymers, covering such topics as printing, thermal processing, morphology evolution, conducting polymer composites, thin films | ||
| 545 | 0 | |a Terje A. Skotheim is the founder of Lightsense and has a successful record in developing new technologies and launching new products in fields as diverse as advanced lithium-sulfur batteries, MEMS devices, photovoltaic cells, and biosensors, through several startups. His research interests have spanned across several disciplines in materials science, including conducting polymers, semiconductors, ion conductors and diamond-like carbon. He has held research positions and co-founded companies in Europe and the US, and was head of the conducting polymer group at DOE's Brookhaven National Laboratory before launching his career as an entrepreneur. He received his B.S. in physics from the Massachusetts Institute Technology and his Ph. D. in physics from the University of California at Berkeley. John R. Reynolds, a native Californian, obtained his B.S. in Chemistry at San Jose State University (1979) followed by his M.S. (1982) and Ph. D. (1984) in Polymer Science and Engineering at the University of Massachusetts. He became interested in the field of conducting and electroactive polymers through a position with the IBM Research Laboratories in the late 1970s. After developing his own research effort at The University of Texas at Arlington (1984-1991), he moved to the University of Florida where he was a Professor of Chemistry and Associate Director of the Center for Macromolecular Science and Engineering until Spring 2012, when his group moved to Georgia Tech where he is a Professor of Chemistry and Biochemistry, and Materials Science and Engineering. He serves as Director of the Georgia Tech Polymer Network (GTPN) and is a member of the Center for Organic Photonics and Electronics (COPE) management team. Barry C. Thompson was born in Milwaukee, Wisconsin in 1977 and moved to Gallipolis, Ohio at a young age, where he attended elementary and high school. Barry then attended the University of Rio Grande in Rio Grande, Ohio, where he m | |
| 505 | 0 | |a Cover; Half Title; Title Page; Copyright Page; Table of Contents; Editors; Contributors; 1: Conjugated Polymer- Based OFET Devices; Mark Nikolka and Henning Sirringhaus; 1.1 Introduction; 1.2 State of OFET Technology/Applications/ Commercialization Efforts; 1.3 Recent Developments in Polymer OFET Materials -- From Crystalline Polythiophenes to Donor-Acceptor Polymers; 1.4 Charge Transport in Polymer OFETs; 1.5 Role of Disorder; 1.6 Charge Carrier Mobility and Artefacts; 1.7 Stability of OFETs; 1.8 Outlook; References | |
| 505 | 8 | |a 2: Electrical Doping of Organic Semiconductors with Molecular Oxidants and ReductantsStephen Barlow, Seth R. Marder, Xin Lin, Fengyu Zhang, and Antoine Kahn; 2.1 Introduction; 2.2 Basics of Doping in Organic Materials; 2.2.1 Comparison to Doping of Inorganic Materials; 2.2.2 Effects of Doping; 2.2.2.1 Enhancement of Conductivity; 2.2.2.2 Lowering of Injection Barriers; 2.3 Criteria for Dopant Choice; 2.4 Survey of Dopants; 2.4.1 p-Dopants; 2.4.1.1 Inorganic p-Dopants; 2.4.1.2 Organic and Metal-Organic p-Dopants; 2.4.2 n-Dopants; 2.4.2.1 One-Electron Reductants; 2.4.2.2 Air-Stable n-Dopants | |
| 505 | 8 | |a 2.5 Device Examples2.5.1 OLEDs; 2.5.2 OFETs; 2.5.3 OPVs; 2.6 Summary; Acknowledgments; References; 3: Electric Transport Properties in PEDOT Thin Films; Nara Kim, Ioannis Petsagkourakis, Shangzhi Chen, Magnus Berggren, Xavier Crispin, Magnus P. Jonsson, and Igor Zozoulenko; 3.1 Introduction; 3.2 Chemistry of PEDOT; 3.2.1 Chemical vs. Electrochemical Polymerization of PEDOT:X; 3.2.2 Chemical Water Dispersion: PEDOT:PSS; 3.2.3 PEDOT:Biopolymer Dispersion Polymerization; 3.2.4 Tuning the Oxidation/Doping Level Chemically vs. Electrochemically | |
| 505 | 8 | |a 3.3 Electronic Structure of PEDOT: From a Single Chain to a Thin Film3.3.1 Nature of Charge Carriers and Electronic Structure of PEDOT Chains; 3.3.2 Density of States of PEDOT: From a Single Chain to a Thin Film; 3.3.3 Band Gap and Optical Transitions in PEDOT; 3.4 Morphology of PEDOT; 3.4.1 Brief Review of Experimental Data for PEDOT:X and PEDOT:PSS (GIWAXS, TEM, AFM); 3.4.2 Morphology of PEDOT: A Theoretical Perspective; 3.4.2.1 Molecular Dynamics Simulation of the Morphology; 3.4.2.2 Effect of Counter-Ions at High Oxidation Levels; 3.4.2.3 Effect of Substrates; 3.5 Electrical Conductivity | |
| 505 | 8 | |a 3.5.1 Basic Thermodynamics of Thermoelectrical Processes3.5.2 Temperature Dependence; 3.5.3 Secondary Doping; 3.5.4 Acid-Base Effect; 3.6 Optical Conductivity; 3.6.1 Basic Definitions and Relations; 3.6.2 Methodologies for Measuring the Dielectric Function; 3.6.2.1 Optical Parameters from Transmittance and Reflectance Measurements; 3.6.2.2 Terahertz Time-Domain Spectroscopy (THz-TDS); 3.6.2.3 Variable Angle Spectroscopic Ellipsometry (VASE); 3.6.3 Optical Conductivity and Permittivity of PEDOT; 3.6.3.1 Anisotropy, Interfacial Layers, and Substrate Effects | |
| 650 | 0 | |a Conducting polymers. | |
| 650 | 0 | |a Organic conductors. | |
| 700 | 1 | |a Reynolds, John R., |d 1956- |e editor. | |
| 700 | 1 | |a Thompson, Barry C., |e editor. | |
| 700 | 1 | |a Skotheim, Terje A., |d 1949- |e editor. | |
| 730 | 0 | |a TaylorFrancis EBA | |
| 830 | 0 | |a Handbook of conducting polymers. | |
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