Organic transistors for flexible electronics : fabrication and device physics

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Abstract/Contents

Abstract: Organic semiconductors have shown promising potentials in flexible electronics. Because the materials can be directly fabricated on flexible plastic substrates at low temperatures, researchers envision development of novel flexible applications, such as flexible displays, flexible circuits, and conformal sensors. In order to develop these practical devices, organic transistor technologies should provide reliable fabrication processes and mature techniques to control the electrical characteristics of each device. In this dissertation, I will discuss several methods to overcome these issues. First, I have demonstrated high-capacitance gate dielectric using atomic layer deposition. This low-temperature process was used to fabricate low-voltage and high-performance flexible organic transistors and inverters. I will also present controlling current-voltage characteristics of organic transistors from the device physics point of view.

Type of resource	text
Form	electronic; electronic resource; remote
Extent	1 online resource.
Publication date	2011
Issuance	monographic
Language	English

Associated with	Chung, Yoonyoung
Associated with	Stanford University, Department of Electrical Engineering
Primary advisor	Bao, Zhenan
Primary advisor	Murmann, Boris
Thesis advisor	Bao, Zhenan
Thesis advisor	Murmann, Boris
Thesis advisor	Nishi, Yoshio, 1940-
Advisor	Nishi, Yoshio, 1940-

Genre	Theses

Statement of responsibility	Yoonyoung Chung.
Note	Submitted to the Department of Electrical Engineering.
Thesis	Thesis (Ph. D.)--Stanford University, 2011.
Location	electronic resource

License: This work is licensed under a Creative Commons Attribution Non Commercial 3.0 Unported license (CC BY-NC).

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