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Thin Film Transistor

Recently, new wide-band energy gap semiconductors can be grown by ALD, PLD, sputtering, or MOCVD. They have great potential for the fabrication and application to TFTs. Inorganic semiconductors have good stability against environmental degradation over their organic counterparts, whereas organic mat...

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Bibliographic Details
Main Author: Horng, Ray-Hua (auth)
Format: Electronic Book Chapter
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2019
Subjects:
History of engineering & technology
charge transport and injection mechanisms
optical synaptic devices
flat panel displays
simulation
persistent photoconductivity
hydrogen
interdigitated
interface state trap density
technology computer aided design (TCAD)
oxygen defects
Corbino
transistor model evaluation
metal-halide lamp
InGaZnOx
contact resistances
chemical treatment
colour difference
organic transistor
equivalent circuit
channel-length dependence
just noticeable difference
oxide semiconductor
OTFT
chromaticity
modeling contact effects
oxygen deficiency
dual-threshold inverter
surface treated
charge-carrier-mobility extraction
optical detecting
thin film transistor
green
photo-sensors
modelling
capacitor
TFT-LCD
organic thin-film transistor
spectrum
hydrogen effect
organic film growth
transparent conducting oxides
quartz-halogen lamp
optical
blue LED
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Description
Summary:Recently, new wide-band energy gap semiconductors can be grown by ALD, PLD, sputtering, or MOCVD. They have great potential for the fabrication and application to TFTs. Inorganic semiconductors have good stability against environmental degradation over their organic counterparts, whereas organic materials are usually flexible, transparent, and when solution-processed at low temperatures, are prone to degradation when exposed to heat, moisture, and oxygen. For this Special Issue, we invited researchers to submit papers discussing the development of new functional and smart materials, and inorganic as well as organic semiconductor materials, such as ZnO, InZnO, GaO, AlGaO, AnGaO, AlN/GaN, conducting polymers, molecular semiconductors, perovskite-based materials, carbon nanotubes, carbon nanotubes/polymer composites, and 2D materials (e.g., graphene, MoS2) and their potential applications in display drivers, radio frequency identification tags, e-paper, gas, chemical and biosensors, to name but a few.
Physical Description:1 electronic resource (108 p.)
ISBN:books978-3-03921-527-0
9783039215270
9783039215263
Access:Open Access

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