High-stability polymer gate insulators and interface effects in organic field-effect transistors.pdf

High-stability polymer gate insulators and interface effects in organic field-effect transistors

Faruk Altan Yildirim


This result suggests the importance of the ultrathin PMMA layer for controlling the interfacial state at the semiconductor/insulator interface and the device characteristics of OTFTs. KW - Air stability. KW - Electron traps. KW - N-channel operation. KW - Organic thin-film transistor. KW - Polymer gate …

9783869551203 ISBN
High-stability polymer gate insulators and interface effects in organic field-effect transistors.pdf


PC und Mac

Lesen Sie das eBook direkt nach dem Herunterladen über "Jetzt lesen" im Browser, oder mit der kostenlosen Lesesoftware Adobe Digital Editions.

iOS & Android

Für Tablets und Smartphones: Unsere Gratis tolino Lese-App

Andere eBook Reader

Laden Sie das eBook direkt auf dem Reader im www.kauf-gebrauchtes.de Shop herunter oder übertragen Sie es mit der kostenlosen Software Sony READER FOR PC/Mac oder Adobe Digital Editions.


Öffnen Sie das eBook nach der automatischen Synchronisation auf dem Reader oder übertragen Sie es manuell auf Ihr tolino Gerät mit der kostenlosen Software Adobe Digital Editions.

Aktuelle Bewertungen

Sofya Voigtuh

Organic Field-Effect Transistors and Electronics 2 Organic & Molecular Electronics C ont ribu s f m: H. Sirringhaus M. Kane Ch. Pannemann, U. Hilleringmann G. Malliaras A. Heeger, P. Petroff, L. Kinder, and J. Swensen I. McCulloch J. Veres H. Meng J.C. Ho J. Jang S. Aramaki Z. Bao T3-2/1. 2 3 Organic & Molecular Electronics Content Introduction Device Structures and Materials – Substrates

Mattio Müllers

01.01.2018 · Organic thin-film transistors (OTFTs) can be fabricated at moderate temperatures and through cost-effective solution-based processes on a wide range of low-cost flexible and deformable substrates. Although the charge mobility of state-of-the-art OTFTs is superior to that of amorphous silicon and approaches that of amorphous oxide thin-film transistors (TFTs), their operational stability

Noels Schulzen

05.10.2007 · In the transistor saturation regime, I SD is given by I SD =(W/2L)μC i (V G – V T) 2, where μ is the field-effect carrier mobility of the semiconductor, W the channel width, L the channel length, C i the capacitance per unit of area of the dielectric layer, and V T the threshold voltage. MW, polymer number-average molecular weight in kg/mol. Sep 11, 2004 ... The influence of gate dielectrics in organic field effect transistors is ... The nature of the oxide interface also impacts the semiconductor morphology. ... The use of organic polymers such as PMMA has generally resulted in higher ... These polymers can be handled in air, and OFET devices are stable, ...

Jason Leghmann

Organic field‐effect transistor (OFET) is an indispensable component in the field of organic electronics, which has been developed to realize low‐cost, flexible large‐area products, and biodegradable electronics [1–3].Compared with the conventional silicon dioxide–based device, OFETs with polymer dielectrics are ideally compatible with flexible substrates and solution process [].

Jessica Kolhmann

High-stability polymer gate insulators and …