Polyimide Dielectric Layer on Filaments for Organic Field Effect Transistors: Choice of Solvent, Solution Composition and Dip-Coating Speed

Polyimide Dielectric Layer on Filaments for Organic Field Effect Transistors: Choice of Solvent, Solution Composition and Dip-Coating Speed

In today’s research, smart textiles is an established topic in both electronics and the textile fields. The concept of producing microelectronics directly on a textile substrate is not a mere idea anymore and several research institutes are working on its realisation. Microelectronics like organic f...

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Main Authors: Rambausek Lina, Bruneel Els, De Mey Gilbert, Van Langenhove Lieva
Format: Article
Language:English
Published: Sciendo 2014-09-01
Series:Autex Research Journal
Subjects:
dip-coating
dielectric
polyimide
polyester filament
fibrous
smart textiles
thin film
transistor
Online Access:https://doi.org/10.2478/aut-2014-0008
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spelling doaj-9ad56ab5f74346559e28f306938643ae2021-09-06T19:41:27ZengSciendoAutex Research Journal2300-09292014-09-0114312113410.2478/aut-2014-0008aut-2014-0008Polyimide Dielectric Layer on Filaments for Organic Field Effect Transistors: Choice of Solvent, Solution Composition and Dip-Coating SpeedRambausek Lina0Bruneel Els1De Mey Gilbert2Van Langenhove Lieva3 Ghent University - Department of Textiles, Ghent, Belgium, Technologiepark 907, 9052 Zwijnaarde, tel +32 9 264 54 06, fax +32 9 264 58 3 Ghent University - Department of Inorganic and Physical Chemistry, Ghent, Belgium, Krijgslaan 281 S3, 9000 Ghent, tel. +32 9 264 44 47, fax +32 9 264 49 83 Ghent University - Electronics and Information Systems Department, Ghent, Belgium, Sint-Pietersnieuwstraat 41, 9000 Ghent, tel. +32 9 264 33 86, fax +32 9 264 35 94 Ghent University - Department of Textiles, Ghent, Belgium, Technologiepark 907, 9052 Zwijnaarde, tel +32 9 264 54 06, fax +32 9 264 58 31In today’s research, smart textiles is an established topic in both electronics and the textile fields. The concept of producing microelectronics directly on a textile substrate is not a mere idea anymore and several research institutes are working on its realisation. Microelectronics like organic field effect transistor (OFET) can be manufactured with a layered architecture. The production techniques used for this purpose can also be applied on textile substrates. Besides gate, active and contact layers, the isolating or dielectric layer is of high importance in the OFET architecture. Therefore, generating a high quality dielectric layer that is of low roughness and insulating at the same time is one of the fundamental requirements in building microelectronics on textile surfaces. To evaluate its potential, we have studied polyimide as a dielectric layer, dip-coated onto copper-coated polyester filaments. Accordingly, the copper-coated polyester filament was dip-coated from a polyimide solution with two different solvents, 1-methyl-2-pyrrolidone (NMP) and dimethylformaldehyde. A variety of dip-coating speeds, solution concentrations and solvent-solute combinations have been tested. Their effect on the quality of the layer was analysed through microscopy, leak current measurements and atomic force microscopy (AFM). Polyimide dip-coating with polyimide resin dissolved in NMP at a concentration of 15w% in combination with a dip-coating speed of 50 mm/min led to the best results in electrical insulation and roughness. By optimising the dielectric layer’s properties, the way is paved for applying the subsequent semi-conductive layer. In further research, we will be working with the organic semiconductor material TIPS-Pentacenehttps://doi.org/10.2478/aut-2014-0008dip-coatingdielectricpolyimidepolyester filamentfibroussmart textilesthin filmtransistor
collection DOAJ
language English
format Article
sources DOAJ
author Rambausek Lina
Bruneel Els
De Mey Gilbert
Van Langenhove Lieva
spellingShingle Rambausek Lina
Bruneel Els
De Mey Gilbert
Van Langenhove Lieva
Polyimide Dielectric Layer on Filaments for Organic Field Effect Transistors: Choice of Solvent, Solution Composition and Dip-Coating Speed
Autex Research Journal
dip-coating
dielectric
polyimide
polyester filament
fibrous
smart textiles
thin film
transistor
author_facet Rambausek Lina
Bruneel Els
De Mey Gilbert
Van Langenhove Lieva
author_sort Rambausek Lina
title Polyimide Dielectric Layer on Filaments for Organic Field Effect Transistors: Choice of Solvent, Solution Composition and Dip-Coating Speed
title_short Polyimide Dielectric Layer on Filaments for Organic Field Effect Transistors: Choice of Solvent, Solution Composition and Dip-Coating Speed
title_full Polyimide Dielectric Layer on Filaments for Organic Field Effect Transistors: Choice of Solvent, Solution Composition and Dip-Coating Speed
title_fullStr Polyimide Dielectric Layer on Filaments for Organic Field Effect Transistors: Choice of Solvent, Solution Composition and Dip-Coating Speed
title_full_unstemmed Polyimide Dielectric Layer on Filaments for Organic Field Effect Transistors: Choice of Solvent, Solution Composition and Dip-Coating Speed
title_sort polyimide dielectric layer on filaments for organic field effect transistors: choice of solvent, solution composition and dip-coating speed
publisher Sciendo
series Autex Research Journal
issn 2300-0929
publishDate 2014-09-01
description In today’s research, smart textiles is an established topic in both electronics and the textile fields. The concept of producing microelectronics directly on a textile substrate is not a mere idea anymore and several research institutes are working on its realisation. Microelectronics like organic field effect transistor (OFET) can be manufactured with a layered architecture. The production techniques used for this purpose can also be applied on textile substrates. Besides gate, active and contact layers, the isolating or dielectric layer is of high importance in the OFET architecture. Therefore, generating a high quality dielectric layer that is of low roughness and insulating at the same time is one of the fundamental requirements in building microelectronics on textile surfaces. To evaluate its potential, we have studied polyimide as a dielectric layer, dip-coated onto copper-coated polyester filaments. Accordingly, the copper-coated polyester filament was dip-coated from a polyimide solution with two different solvents, 1-methyl-2-pyrrolidone (NMP) and dimethylformaldehyde. A variety of dip-coating speeds, solution concentrations and solvent-solute combinations have been tested. Their effect on the quality of the layer was analysed through microscopy, leak current measurements and atomic force microscopy (AFM). Polyimide dip-coating with polyimide resin dissolved in NMP at a concentration of 15w% in combination with a dip-coating speed of 50 mm/min led to the best results in electrical insulation and roughness. By optimising the dielectric layer’s properties, the way is paved for applying the subsequent semi-conductive layer. In further research, we will be working with the organic semiconductor material TIPS-Pentacene
topic dip-coating
dielectric
polyimide
polyester filament
fibrous
smart textiles
thin film
transistor
url https://doi.org/10.2478/aut-2014-0008
work_keys_str_mv AT rambauseklina polyimidedielectriclayeronfilamentsfororganicfieldeffecttransistorschoiceofsolventsolutioncompositionanddipcoatingspeed
AT bruneelels polyimidedielectriclayeronfilamentsfororganicfieldeffecttransistorschoiceofsolventsolutioncompositionanddipcoatingspeed
AT demeygilbert polyimidedielectriclayeronfilamentsfororganicfieldeffecttransistorschoiceofsolventsolutioncompositionanddipcoatingspeed
AT vanlangenhovelieva polyimidedielectriclayeronfilamentsfororganicfieldeffecttransistorschoiceofsolventsolutioncompositionanddipcoatingspeed
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