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Self-assembly supramolecules to enhance electrical conductivity of polyaniline for a flexible organic solar cells anode

Authors
Lim, Tae HwanOh, Kyung WhaKim, Seong Hun
Issue Date
Jun-2012
Publisher
Elsevier BV
Keywords
Polyaniline; Self-assembly; Organic solar cells; Polymer electrode; Crystallinity
Citation
Solar Energy Materials and Solar Cells, v.101, pp 232 - 240
Pages
9
Indexed
SCI
SCIE
SCOPUS
Journal Title
Solar Energy Materials and Solar Cells
Volume
101
Start Page
232
End Page
240
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/165394
DOI
10.1016/j.solmat.2012.01.040
ISSN
0927-0248
1879-3398
Abstract
A high performance and cost effective polyaniline doped with camphorsulfonic acid (PANI:CSA) based thin film was prepared for a flexible electrode. A high crystalline structure was introduced to prevent the decreased orientation of PANI film to overcome a conductivity dropping with decreasing film thickness because of the recoiling of the polymer chains. An optimum structure is selected according to the various analyses such as self-assembled degree, crystallinity, and the blending properties with PANI. The additive, named self-assembly supramolecules (SAS), was successfully blended with PANI chains. PANI film blended with the most suitable SAS (PANI:CSA/SAS18) exhibited high conductivity of 843 S/cm and a high optical transparency of 86% at 550 nm that was thinner than 200 nm of film thickness. The flexible organic solar cells (OSCs) device adapted to our electrode shows a higher power conversion efficiency of 1.73% than a pristine PANI:CSA electrode at 0.40%. Furthermore, it was possible to induce long environmental stability under numerous device operating cycles since PANI:CSA/SAS18 had a lower acidity compared with the PEDOT:PSS conventional polymer electrode. The efficiency of our OSC device remains more than 90% after 500 h, while that of OSC device made of PEDOT:PSS decreased approximately 30% of their initial efficiency after 500 h. The PANI based OSCs electrode developed in this study has the potential for consideration as a novel polymer electrode in a flexible display.
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