FULLY-PRINTED CARBON NANOTUBE THIN FILM TRANSISTOR CIRCUITS FOR ORGANIC LIGHT EMITTING DIODE

The subject technology relates to a method including steps for disposing a first electrically conductive material on a substrate to form a first layer of electrodes on the substrate, wherein the first layer includes a source electrode and a drain electrode, and printing a film including carbon nanot...

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Main Authors GALATSIS KOSMAS, CHEN POCHIANG, FU YUE, ZHOU CHONGWU
Format Patent
LanguageEnglish
Published 01.10.2015
Subjects
ELECTRICITY
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Abstract The subject technology relates to a method including steps for disposing a first electrically conductive material on a substrate to form a first layer of electrodes on the substrate, wherein the first layer includes a source electrode and a drain electrode, and printing a film including carbon nanotubes between the source electrode and the drain electrode, thereby defining at least a first interface between the carbon nanotube film and the source electrode and a second interface between the carbon nanotube film and drain electrode. In certain aspects, the method can further include steps for disposing a second electrically conductive material over the first interface between the carbon nanotube film and the source electrode and the second interface between the carbon nanotube film and the drain electrode. In certain aspects, a transistor device is also provided.
AbstractList The subject technology relates to a method including steps for disposing a first electrically conductive material on a substrate to form a first layer of electrodes on the substrate, wherein the first layer includes a source electrode and a drain electrode, and printing a film including carbon nanotubes between the source electrode and the drain electrode, thereby defining at least a first interface between the carbon nanotube film and the source electrode and a second interface between the carbon nanotube film and drain electrode. In certain aspects, the method can further include steps for disposing a second electrically conductive material over the first interface between the carbon nanotube film and the source electrode and the second interface between the carbon nanotube film and the drain electrode. In certain aspects, a transistor device is also provided.
Author GALATSIS KOSMAS
FU YUE
CHEN POCHIANG
ZHOU CHONGWU
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Snippet The subject technology relates to a method including steps for disposing a first electrically conductive material on a substrate to form a first layer of...
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Title FULLY-PRINTED CARBON NANOTUBE THIN FILM TRANSISTOR CIRCUITS FOR ORGANIC LIGHT EMITTING DIODE
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