Organic Electronics II: More Materials and ApplicationsHagen Klauk John Wiley & Sons, 9 avr. 2012 - 440 pages Like its predecessor this book is devoted to the materials, manufacturing and applications aspects of organic thin-film transistors. Once again authored by the most renowned experts from this fascinating and fast-moving area of research, it offers a joint perspective both broad and in-depth on the latest developments in the areas of materials chemistry, transport physics, materials characterization, manufacturing technology, and circuit integration of organic transistors. With its many figures and detailed index, this book once again also serves as a ready reference. |
Table des matières
Characterization ofOrder and Orientation in Semiconducting | 27 |
Charge Transport Theories in Organic Semiconductors | 67 |
SilylethyneSubstituted Acenes and Heteroacenes | 105 |
Conjugated Semiconductors for Organic nChannel Transistors | 137 |
LowVoltage ElectrolyteGated OTFTs and Their Applications | 197 |
Printing Techniques for ThinFilm Electronics | 237 |
Picoliter and Subfemtoliter Inkjet Technologies for Organic | 255 |
Inkjet Printing of Downscaled Organic Electronic Devices | 281 |
Interplay between Processing Structure and Electronic Properties | 327 |
Applications | 353 |
Design Methodologies for Organic RFID Tags and Sensor | 387 |
| 413 | |
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Expressions et termes fréquents
ambipolar annealing Appl applications capacitance carrier mobility channel length characteristics charge carrier charge transport Chem chemical circuits crystalline density deposited devices diffraction diimide disorder droplets electrical electrochemical electrolyte electrolyte-gated electron mobilities emission zone energy evaporation fabricated Facchetti field-effect transistors film function gate dielectric gate electrode gate voltage hole and electron hopping injection ink-jet printing interface inverter Klauk layer LEFET Lett light-emitting materials measured microstructure molecular molecules morphology n-channel n-type nanoparticles NEXAFS nozzle OFETs optical organic electronics organic semiconductors organic transistors orientation OTFTs output P3HT pattern pentacene perylene Phys piezoelectric poly(3-hexylthiophene polyimide polymer RFID rubrene Schematic shown in Figure single crystals sintering Sirringhaus solvent source–drain spin coating structure subfemtoliter Subramanian substrate surface temperature TFTs thermal thin thin-film transistors thiophene threshold voltage TIPS pentacene transfer typically unipolar width X-ray