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All-polymer thin film transistors on patterned elastomeric substrates

✍ Scribed by Hyewon Kang; Tae-il Kim; Keon-kook Han; Hong H. Lee

Book ID
104075986
Publisher
Elsevier Science
Year
2009
Tongue
English
Weight
274 KB
Volume
10
Category
Article
ISSN
1566-1199

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✦ Synopsis

A patterned soft elastomeric substrate is utilized for fabricating an all-polymer thin film transistor (TFT). With a polymer solution for the source/drain electrodes, it is difficult to form a well defined narrow channel. The problem is resolved with the aid of a micromolding technique and the patterned substrate. When the all polymer TFT is subjected to bending, the polymer gate dielectric is the layer that experiences the most stress. This stress problem, which can lead to device failure, can be relieved to an extent by introducing a small fraction of ethyl cellulose to the polymer dielectric. The effects of the ethyl cellulose content on the device performance are not significant.

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## Abstract It is well known that chemically patterned substrates can direct the assembly of adsorbed layers or thin films of block copolymers. For a cylinder‐forming diblock copolymer on periodically spot‐patterned substrates, the morphology of the block copolymer follows the pattern at the substr