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Holliday, S., Ashraf, R.S., Wadsworth, A., Baran, D., Yousaf, S.A., Nielsen, C.B., Tan, C.-H., Dimitrov, S.D., Shang, Z., Gasparini, N., Alamoudi, M., Laquai, F., Brabec, C.J., Salleo, A., Durrant, J.R. and McCulloch, I. (2016) High-Efficiency and Air-Stable P3HT-Based Polymer Solar Cells with a New Non-Fullerene Acceptor. Nature Communications, 7, Article No. 11585. https://doi.org/10.1038/ncomms11585
has been cited by the following article:
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TITLE:
Preparation and Characterization of Reduced Graphene-P3HT Composite Thin Films for Use as Transparent Conducting Electrodes
AUTHORS:
Lam Minh Long, Dang Dinh Long, Nguyen Phuong Hoai Nam, Nguyen Trong Tinh, Sergei Antonovic Chizhik, Nguyen Nang Dinh
KEYWORDS:
Composite rGO-P3HT Thin Films, Transparent Conducting Electrode, Sheet Resistance Transmittance
JOURNAL NAME:
Materials Sciences and Applications,
Vol.9 No.5,
May
22,
2018
ABSTRACT: With the aim of producing simple and effective transparent conducting electrodes, the conducting polymer poly(3-hexylthiophene) (P3HT) incorporated with reduced graphene oxide film (rGO) (called rGO-P3HT) was prepared by spin-coating method. Structural, electrical and optical characterization showed that rGO-P3HT films 9.0 wt% P3HT exhibited good stability when exposed to the ambient atmosphere. These composite films of 200 nm thickness possess a sheet resistance and transparency of R□~ 17Ω and T ~ 72%, respectively. Owing to containing conducting polymer, rGO-P3HT-coated glass could be efficiently used in photovoltaic applications, in organic solar cells in particular, with the replacement of the indium tin oxide (ITO) and fluorine tin oxide (FTO) electrodes.