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04232nam a22006015i 4500 |
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978-3-642-04538-7 |
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DE-He213 |
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20151116133556.0 |
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110414s2010 gw | s |||| 0|eng d |
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|a 9783642045387
|9 978-3-642-04538-7
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|a 10.1007/978-3-642-04538-7
|2 doi
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|a QD380-388
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|a TEC055000
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|a 541.2254
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|a Organic Electronics
|h [electronic resource] /
|c edited by Tibor Grasser, Gregor Meller, Ling Li.
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|a Berlin, Heidelberg :
|b Springer Berlin Heidelberg,
|c 2010.
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|a XIV, 330 p. 178 illus., 50 illus. in color.
|b online resource.
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|a text
|b txt
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|a computer
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|a online resource
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|a text file
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|a Advances in Polymer Science,
|x 0065-3195 ;
|v 223
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|a Description of Charge Transport in Disordered Organic Materials -- Drift Velocity and Drift Mobility Measurement in Organic Semiconductors Using Pulse Voltage -- Effective Temperature Models for the Electric Field Dependence of Charge Carrier Mobility in Tris(8-hydroxyquinoline) Aluminum -- Bio-Organic Optoelectronic Devices Using DNA -- Comparison of Simulations of Lipid Membranes with Membranes of Block Copolymers -- Low-Cost Submicrometer Organic Field-Effect Transistors -- Organic Field-Effect Transistors for CMOS Devices -- Biomimetic Block Copolymer Membranes -- Steady-State Photoconduction in Amorphous Organic Solids -- Charge Transport in Organic Semiconductor Devices.
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|a Dear Readers, Since the ground-breaking, Nobel-prize crowned work of Heeger, MacDiarmid, and Shirakawa on molecularly doped polymers and polymers with an alternating bonding structure at the end of the 1970s, the academic and industrial research on hydrocarbon-based semiconducting materials and devices has made encouraging progress. The strengths of semiconducting polymers are currently mainly unfolding in cheap and easily assembled thin ?lm transistors, light emitting diodes, and organic solar cells. The use of so-called “plastic chips” ranges from lightweight, portable devices over large-area applications to gadgets demanding a degree of mechanical ?exibility, which would overstress conventionaldevices based on inorganic,perfect crystals. The ?eld of organic electronics has evolved quite dynamically during the last few years; thus consumer electronics based on molecular semiconductors has gained suf?cient market attractiveness to be launched by the major manufacturers in the recent past. Nonetheless, the numerous challenges related to organic device physics and the physics of ordered and disordered molecular solids are still the subjects of a cont- uing lively debate. The future of organic microelectronics will unavoidably lead to new devi- physical insights and hence to novel compounds and device architectures of - hanced complexity. Thus, the early evolution of predictive models and precise, computationally effective simulation tools for computer-aided analysis and design of promising device prototypes will be of crucial importance.
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|a Chemistry.
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|a Organic chemistry.
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|a Physical chemistry.
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|a Polymers.
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|a Solid state physics.
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|a Spectroscopy.
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|a Microscopy.
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|a Optical materials.
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|a Electronic materials.
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|a Chemistry.
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|a Polymer Sciences.
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|a Optical and Electronic Materials.
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|a Solid State Physics.
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|a Spectroscopy and Microscopy.
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|a Organic Chemistry.
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|a Physical Chemistry.
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|a Grasser, Tibor.
|e editor.
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|a Meller, Gregor.
|e editor.
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|a Li, Ling.
|e editor.
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|a SpringerLink (Online service)
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|t Springer eBooks
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|i Printed edition:
|z 9783642045370
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|a Advances in Polymer Science,
|x 0065-3195 ;
|v 223
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|u http://dx.doi.org/10.1007/978-3-642-04538-7
|z Full Text via HEAL-Link
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|a ZDB-2-CMS
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|a Chemistry and Materials Science (Springer-11644)
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