Transparent Electrodes: Highly Conductive PEDOT:PSS Nanofibrils Induced by Solution‐Processed Crystallization (Adv. Mater. 14/2014)
Nara KimSeyoung KeeSeoung Ho LeeByoung Hoon LeeYung Ho KahngYong‐Ryun JoBong‐Joong KimKwanghee Lee
Abstract
The crystalline nanostructure of intrinsically conducting polymers is formed via an all-solution process, leading to a highly conducting state. H2SO4 post-treatment induces a significant structural rearrangement in PEDOT:PSS films, developing crystalline nanofibrils with a stoichiometrically optimal amount of PSS, and this dramatically increases conductivity up to σdc ≈ 4380 S cm−1. The highly conductive PEDOT:PSS exhibits potential as a transparent electrode in printable optoelectronic devices, as described by K. Lee, S. H. Lee, and co-workers on page 2268.
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