Verfügbarkeit: Polymer electronics /

Polymer electronics /:

Polymer electronics lies behind many important new developments in technology, such as the flexible electronic display (e-ink) and modern transistor technology. This book presents a thorough discussion of the physics and chemistry behind this exciting field, appealing to all physical scientists with...

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Bibliographische Detailangaben
1. Verfasser:	Geoghegan, Mark
Weitere Verfasser:	Hadziioannou, Georges
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Oxford : Oxford University Press, 2013.
Schriftenreihe:	Oxford master series in physics ; 22.
Schlagworte:	Conducting polymers. Polymers > Electric properties. Electronics > Materials. Polymères conducteurs. Polymères > Propriétés électriques. Électronique > Matériaux. TECHNOLOGY & ENGINEERING > Electronics > Digital. TECHNOLOGY & ENGINEERING > Electronics > Microelectronics. Conducting polymers Electronics > Materials Polymers > Electric properties
Online-Zugang:	Volltext
Zusammenfassung:	Polymer electronics lies behind many important new developments in technology, such as the flexible electronic display (e-ink) and modern transistor technology. This book presents a thorough discussion of the physics and chemistry behind this exciting field, appealing to all physical scientists with an interest in polymer electronics.
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references.
ISBN:	9780191665448 0191665444 1299464092 9781299464094

Internformat

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505	0		\|a Cover; Contents; 1 Polymer electronics; 1.1 A history of polymer electronics; 1.2 Future applications of polymer electronics; 1.2.1 Lighting and display technology; 1.2.2 Transistors; 1.2.3 Radio frequency identification tags; 1.2.4 Superconductivity; 1.2.5 Spintronics; 1.2.6 Biological hybrid systems; 1.3 Challenges; 1.4 Further reading; 2 Electronic structure and band theory; 2.1 Conductivity; 2.2 The free electron model; 2.3 Band theory; 2.3.1 Lattice periodicity and Bloch theory; 2.3.2 The Kronig-Penney model; 2.4 Energy bands in polymers; 2.4.1 Linear combination of atomic orbitals
505	8		\|a 2.4.2 Energy bands2.4.3 Su-Schrieffer-Heeger theory; 2.4.4 Solitons; 2.4.5 Doping; 2.5 Further reading; 2.6 Exercises; 3 Beyond polyacetylene; 3.1 The quinoid conformation and PPP; 3.2 PPV; 3.3 Polythiophene; 3.4 Polypyrrole; 3.5 Polyaniline; 3.6 More on the limits to the conjugation of polymers; 3.7 Ladder polymers; 3.8 Synthetic metals and low band gap polymers; 3.8.1 Sheet resistance; 3.9 Buckminsterfullerene, carbon nanotubes, and graphene; 3.9.1 Buckminsterfullerene; 3.9.2 Carbon nanotubes; 3.9.3 Graphene; 3.10 Further reading; 3.11 Exercises; 4 Optoelectronic properties
505	8		\|a 5.5.2 Electron and hole injection under an applied electric field5.5.3 Electrodes; 5.5.4 Transport across the barrier; 5.6 Further reading; 5.7 Exercises; 6 Synthesis and macromolecular design; 6.1 Polymerization; 6.1.1 Carothers equation; 6.2 Macromolecular design; 6.2.1 Solubility; 6.2.2 Doping; 6.2.3 Control of the band gap; 6.2.4 Charge transport requirements; 6.2.5 Improved optoelectronic behaviour; 6.3 Coupling and cross-coupling reactions; 6.3.1 Stille coupling; 6.3.2 Suzuki coupling; 6.3.3 Kumada coupling; 6.3.4 Yamamoto coupling; 6.3.5 Sonogashira coupling; 6.3.6 The Heck reaction
505	8		\|a 6.4 Synthesis of polyacetylene6.4.1 The Ziegler-Natta catalysis route to polyacetylene; 6.4.2 Durham polyacetylene; 6.5 Synthesis of poly(para-phenylene); 6.6 Synthesis of poly(phenylene vinylene); 6.6.1 Direct synthesis of PPV; 6.6.2 Precursor routes to PPV; 6.7 Synthesis of polythiophenes; 6.7.1 Condensation reaction routes to polythiophenes; 6.7.2 Grignard metathesis; 6.7.3 Synthesis of poly(3,4-ethylene dioxythiophene); 6.8 Polyaniline synthesis; 6.9 Electrochemical synthesis of polypyrrole; 6.10 Further reading; 6.11 Exercises; 7 The physics of polymers; 7.1 Persistence length
546			\|a English.
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700	1		\|a Hadziioannou, Georges.
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contents	Cover; Contents; 1 Polymer electronics; 1.1 A history of polymer electronics; 1.2 Future applications of polymer electronics; 1.2.1 Lighting and display technology; 1.2.2 Transistors; 1.2.3 Radio frequency identification tags; 1.2.4 Superconductivity; 1.2.5 Spintronics; 1.2.6 Biological hybrid systems; 1.3 Challenges; 1.4 Further reading; 2 Electronic structure and band theory; 2.1 Conductivity; 2.2 The free electron model; 2.3 Band theory; 2.3.1 Lattice periodicity and Bloch theory; 2.3.2 The Kronig-Penney model; 2.4 Energy bands in polymers; 2.4.1 Linear combination of atomic orbitals 2.4.2 Energy bands2.4.3 Su-Schrieffer-Heeger theory; 2.4.4 Solitons; 2.4.5 Doping; 2.5 Further reading; 2.6 Exercises; 3 Beyond polyacetylene; 3.1 The quinoid conformation and PPP; 3.2 PPV; 3.3 Polythiophene; 3.4 Polypyrrole; 3.5 Polyaniline; 3.6 More on the limits to the conjugation of polymers; 3.7 Ladder polymers; 3.8 Synthetic metals and low band gap polymers; 3.8.1 Sheet resistance; 3.9 Buckminsterfullerene, carbon nanotubes, and graphene; 3.9.1 Buckminsterfullerene; 3.9.2 Carbon nanotubes; 3.9.3 Graphene; 3.10 Further reading; 3.11 Exercises; 4 Optoelectronic properties 5.5.2 Electron and hole injection under an applied electric field5.5.3 Electrodes; 5.5.4 Transport across the barrier; 5.6 Further reading; 5.7 Exercises; 6 Synthesis and macromolecular design; 6.1 Polymerization; 6.1.1 Carothers equation; 6.2 Macromolecular design; 6.2.1 Solubility; 6.2.2 Doping; 6.2.3 Control of the band gap; 6.2.4 Charge transport requirements; 6.2.5 Improved optoelectronic behaviour; 6.3 Coupling and cross-coupling reactions; 6.3.1 Stille coupling; 6.3.2 Suzuki coupling; 6.3.3 Kumada coupling; 6.3.4 Yamamoto coupling; 6.3.5 Sonogashira coupling; 6.3.6 The Heck reaction 6.4 Synthesis of polyacetylene6.4.1 The Ziegler-Natta catalysis route to polyacetylene; 6.4.2 Durham polyacetylene; 6.5 Synthesis of poly(para-phenylene); 6.6 Synthesis of poly(phenylene vinylene); 6.6.1 Direct synthesis of PPV; 6.6.2 Precursor routes to PPV; 6.7 Synthesis of polythiophenes; 6.7.1 Condensation reaction routes to polythiophenes; 6.7.2 Grignard metathesis; 6.7.3 Synthesis of poly(3,4-ethylene dioxythiophene); 6.8 Polyaniline synthesis; 6.9 Electrochemical synthesis of polypyrrole; 6.10 Further reading; 6.11 Exercises; 7 The physics of polymers; 7.1 Persistence length
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dewey-tens	620 - Engineering and allied operations
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
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indexdate	2024-11-27T13:25:18Z
institution	BVB
isbn	9780191665448 0191665444 1299464092 9781299464094
language	English
oclc_num	840505148
open_access_boolean
owner	MAIN DE-863 DE-BY-FWS
owner_facet	MAIN DE-863 DE-BY-FWS
physical	1 online resource
psigel	ZDB-4-EBA
publishDate	2013
publishDateSearch	2013
publishDateSort	2013
publisher	Oxford University Press,
record_format	marc
series	Oxford master series in physics ;
series2	Oxford master series in physics ;
spelling	Geoghegan, Mark. http://id.loc.gov/authorities/names/n2004013078 Polymer electronics / Mark Geoghegan and Georges Hadziioannou. Oxford : Oxford University Press, 2013. 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Oxford master series in physics ; 22 Includes bibliographical references. Print version record. Polymer electronics lies behind many important new developments in technology, such as the flexible electronic display (e-ink) and modern transistor technology. This book presents a thorough discussion of the physics and chemistry behind this exciting field, appealing to all physical scientists with an interest in polymer electronics. Cover; Contents; 1 Polymer electronics; 1.1 A history of polymer electronics; 1.2 Future applications of polymer electronics; 1.2.1 Lighting and display technology; 1.2.2 Transistors; 1.2.3 Radio frequency identification tags; 1.2.4 Superconductivity; 1.2.5 Spintronics; 1.2.6 Biological hybrid systems; 1.3 Challenges; 1.4 Further reading; 2 Electronic structure and band theory; 2.1 Conductivity; 2.2 The free electron model; 2.3 Band theory; 2.3.1 Lattice periodicity and Bloch theory; 2.3.2 The Kronig-Penney model; 2.4 Energy bands in polymers; 2.4.1 Linear combination of atomic orbitals 2.4.2 Energy bands2.4.3 Su-Schrieffer-Heeger theory; 2.4.4 Solitons; 2.4.5 Doping; 2.5 Further reading; 2.6 Exercises; 3 Beyond polyacetylene; 3.1 The quinoid conformation and PPP; 3.2 PPV; 3.3 Polythiophene; 3.4 Polypyrrole; 3.5 Polyaniline; 3.6 More on the limits to the conjugation of polymers; 3.7 Ladder polymers; 3.8 Synthetic metals and low band gap polymers; 3.8.1 Sheet resistance; 3.9 Buckminsterfullerene, carbon nanotubes, and graphene; 3.9.1 Buckminsterfullerene; 3.9.2 Carbon nanotubes; 3.9.3 Graphene; 3.10 Further reading; 3.11 Exercises; 4 Optoelectronic properties 5.5.2 Electron and hole injection under an applied electric field5.5.3 Electrodes; 5.5.4 Transport across the barrier; 5.6 Further reading; 5.7 Exercises; 6 Synthesis and macromolecular design; 6.1 Polymerization; 6.1.1 Carothers equation; 6.2 Macromolecular design; 6.2.1 Solubility; 6.2.2 Doping; 6.2.3 Control of the band gap; 6.2.4 Charge transport requirements; 6.2.5 Improved optoelectronic behaviour; 6.3 Coupling and cross-coupling reactions; 6.3.1 Stille coupling; 6.3.2 Suzuki coupling; 6.3.3 Kumada coupling; 6.3.4 Yamamoto coupling; 6.3.5 Sonogashira coupling; 6.3.6 The Heck reaction 6.4 Synthesis of polyacetylene6.4.1 The Ziegler-Natta catalysis route to polyacetylene; 6.4.2 Durham polyacetylene; 6.5 Synthesis of poly(para-phenylene); 6.6 Synthesis of poly(phenylene vinylene); 6.6.1 Direct synthesis of PPV; 6.6.2 Precursor routes to PPV; 6.7 Synthesis of polythiophenes; 6.7.1 Condensation reaction routes to polythiophenes; 6.7.2 Grignard metathesis; 6.7.3 Synthesis of poly(3,4-ethylene dioxythiophene); 6.8 Polyaniline synthesis; 6.9 Electrochemical synthesis of polypyrrole; 6.10 Further reading; 6.11 Exercises; 7 The physics of polymers; 7.1 Persistence length English. Conducting polymers. http://id.loc.gov/authorities/subjects/sh90000920 Polymers Electric properties. http://id.loc.gov/authorities/subjects/sh85104666 Electronics Materials. http://id.loc.gov/authorities/subjects/sh85042388 Polymères conducteurs. Polymères Propriétés électriques. Électronique Matériaux. TECHNOLOGY & ENGINEERING Electronics Digital. bisacsh TECHNOLOGY & ENGINEERING Electronics Microelectronics. bisacsh Conducting polymers fast Electronics Materials fast Polymers Electric properties fast Hadziioannou, Georges. Print version: Geoghegan, Mark. Polymer electronics. Oxford : Oxford University Press, 2013 9780199533824 (OCoLC)822959027 Oxford master series in physics ; 22. http://id.loc.gov/authorities/names/no2004014075 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=564277 Volltext
spellingShingle	Geoghegan, Mark Polymer electronics / Oxford master series in physics ; Cover; Contents; 1 Polymer electronics; 1.1 A history of polymer electronics; 1.2 Future applications of polymer electronics; 1.2.1 Lighting and display technology; 1.2.2 Transistors; 1.2.3 Radio frequency identification tags; 1.2.4 Superconductivity; 1.2.5 Spintronics; 1.2.6 Biological hybrid systems; 1.3 Challenges; 1.4 Further reading; 2 Electronic structure and band theory; 2.1 Conductivity; 2.2 The free electron model; 2.3 Band theory; 2.3.1 Lattice periodicity and Bloch theory; 2.3.2 The Kronig-Penney model; 2.4 Energy bands in polymers; 2.4.1 Linear combination of atomic orbitals 2.4.2 Energy bands2.4.3 Su-Schrieffer-Heeger theory; 2.4.4 Solitons; 2.4.5 Doping; 2.5 Further reading; 2.6 Exercises; 3 Beyond polyacetylene; 3.1 The quinoid conformation and PPP; 3.2 PPV; 3.3 Polythiophene; 3.4 Polypyrrole; 3.5 Polyaniline; 3.6 More on the limits to the conjugation of polymers; 3.7 Ladder polymers; 3.8 Synthetic metals and low band gap polymers; 3.8.1 Sheet resistance; 3.9 Buckminsterfullerene, carbon nanotubes, and graphene; 3.9.1 Buckminsterfullerene; 3.9.2 Carbon nanotubes; 3.9.3 Graphene; 3.10 Further reading; 3.11 Exercises; 4 Optoelectronic properties 5.5.2 Electron and hole injection under an applied electric field5.5.3 Electrodes; 5.5.4 Transport across the barrier; 5.6 Further reading; 5.7 Exercises; 6 Synthesis and macromolecular design; 6.1 Polymerization; 6.1.1 Carothers equation; 6.2 Macromolecular design; 6.2.1 Solubility; 6.2.2 Doping; 6.2.3 Control of the band gap; 6.2.4 Charge transport requirements; 6.2.5 Improved optoelectronic behaviour; 6.3 Coupling and cross-coupling reactions; 6.3.1 Stille coupling; 6.3.2 Suzuki coupling; 6.3.3 Kumada coupling; 6.3.4 Yamamoto coupling; 6.3.5 Sonogashira coupling; 6.3.6 The Heck reaction 6.4 Synthesis of polyacetylene6.4.1 The Ziegler-Natta catalysis route to polyacetylene; 6.4.2 Durham polyacetylene; 6.5 Synthesis of poly(para-phenylene); 6.6 Synthesis of poly(phenylene vinylene); 6.6.1 Direct synthesis of PPV; 6.6.2 Precursor routes to PPV; 6.7 Synthesis of polythiophenes; 6.7.1 Condensation reaction routes to polythiophenes; 6.7.2 Grignard metathesis; 6.7.3 Synthesis of poly(3,4-ethylene dioxythiophene); 6.8 Polyaniline synthesis; 6.9 Electrochemical synthesis of polypyrrole; 6.10 Further reading; 6.11 Exercises; 7 The physics of polymers; 7.1 Persistence length Conducting polymers. http://id.loc.gov/authorities/subjects/sh90000920 Polymers Electric properties. http://id.loc.gov/authorities/subjects/sh85104666 Electronics Materials. http://id.loc.gov/authorities/subjects/sh85042388 Polymères conducteurs. Polymères Propriétés électriques. Électronique Matériaux. TECHNOLOGY & ENGINEERING Electronics Digital. bisacsh TECHNOLOGY & ENGINEERING Electronics Microelectronics. bisacsh Conducting polymers fast Electronics Materials fast Polymers Electric properties fast
subject_GND	http://id.loc.gov/authorities/subjects/sh90000920 http://id.loc.gov/authorities/subjects/sh85104666 http://id.loc.gov/authorities/subjects/sh85042388
title	Polymer electronics /
title_auth	Polymer electronics /
title_exact_search	Polymer electronics /
title_full	Polymer electronics / Mark Geoghegan and Georges Hadziioannou.
title_fullStr	Polymer electronics / Mark Geoghegan and Georges Hadziioannou.
title_full_unstemmed	Polymer electronics / Mark Geoghegan and Georges Hadziioannou.
title_short	Polymer electronics /
title_sort	polymer electronics
topic	Conducting polymers. http://id.loc.gov/authorities/subjects/sh90000920 Polymers Electric properties. http://id.loc.gov/authorities/subjects/sh85104666 Electronics Materials. http://id.loc.gov/authorities/subjects/sh85042388 Polymères conducteurs. Polymères Propriétés électriques. Électronique Matériaux. TECHNOLOGY & ENGINEERING Electronics Digital. bisacsh TECHNOLOGY & ENGINEERING Electronics Microelectronics. bisacsh Conducting polymers fast Electronics Materials fast Polymers Electric properties fast
topic_facet	Conducting polymers. Polymers Electric properties. Electronics Materials. Polymères conducteurs. Polymères Propriétés électriques. Électronique Matériaux. TECHNOLOGY & ENGINEERING Electronics Digital. TECHNOLOGY & ENGINEERING Electronics Microelectronics. Conducting polymers Electronics Materials Polymers Electric properties
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=564277
work_keys_str_mv	AT geogheganmark polymerelectronics AT hadziioannougeorges polymerelectronics

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