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Short-Channel Organic Thin-Film Transistors electronic resource Fabrication, Characterization, Modeling and Circuit Demonstration / by Tarek Zaki.

By: Zaki, Tarek [author.]Contributor(s): SpringerLink (Online service)Material type: TextTextSeries: Springer Theses, Recognizing Outstanding Ph.D. ResearchPublication details: Cham : Springer International Publishing : Imprint: Springer, 2015Description: XXIII, 220 p. 87 illus., 75 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783319188966Subject(s): chemistry | Electrochemistry | Surfaces (Physics) | Interfaces (Physical sciences) | Thin films | electronics | Microelectronics | Chemistry | Electrochemistry | Surface and Interface Science, Thin Films | Electronics and Microelectronics, InstrumentationDDC classification: 541.37 LOC classification: QD551-578Online resources: Click here to access online
Contents:
Motivation -- Introduction to Organic Electronics -- Organic Thin-Film Transistors -- Fabrication Process -- Static Characterization -- Admittance Characterization -- Scattering Parameter Characterization -- Digital-to-Analog Converters -- Conclusion.
In: Springer eBooksSummary: This work takes advantage of high-resolution silicon stencil masks to build air-stable complementary OTFTs using a low-temperature fabrication process. Plastic electronics based on organic thin-film transistors (OTFTs) pave the way for cheap, flexible and large-area products. Over the past few years, OTFTs have undergone remarkable advances in terms of reliability, performance and scale of integration. Many factors contribute to the allure of this technology; the masks exhibit excellent stiffness and stability, thus allowing OTFTs with submicrometer channel lengths and superb device uniformity to be patterned. Furthermore, the OTFTs employ an ultra-thin gate dielectric that provides a sufficiently high capacitance to enable the transistors to operate at voltages as low as 3 V. The critical challenges in this development are the subtle mechanisms that govern the properties of aggressively scaled OTFTs. These mechanisms, dictated by device physics, are well described and implemented into circuit-design tools to ensure adequate simulation accuracy.
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Motivation -- Introduction to Organic Electronics -- Organic Thin-Film Transistors -- Fabrication Process -- Static Characterization -- Admittance Characterization -- Scattering Parameter Characterization -- Digital-to-Analog Converters -- Conclusion.

This work takes advantage of high-resolution silicon stencil masks to build air-stable complementary OTFTs using a low-temperature fabrication process. Plastic electronics based on organic thin-film transistors (OTFTs) pave the way for cheap, flexible and large-area products. Over the past few years, OTFTs have undergone remarkable advances in terms of reliability, performance and scale of integration. Many factors contribute to the allure of this technology; the masks exhibit excellent stiffness and stability, thus allowing OTFTs with submicrometer channel lengths and superb device uniformity to be patterned. Furthermore, the OTFTs employ an ultra-thin gate dielectric that provides a sufficiently high capacitance to enable the transistors to operate at voltages as low as 3 V. The critical challenges in this development are the subtle mechanisms that govern the properties of aggressively scaled OTFTs. These mechanisms, dictated by device physics, are well described and implemented into circuit-design tools to ensure adequate simulation accuracy.

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