期刊
ORGANIC ELECTRONICS
卷 35, 期 -, 页码 118-127出版社
ELSEVIER
DOI: 10.1016/j.orgel.2016.05.015
关键词
Organic solar cells; Ink-jet printing; Zinc oxide; Electron transport layer; Active layer; P3HT:PC61BM
资金
- Department of Science and Technology, India [SR/RC-UK/Solar(F)/2010, SR/RC-UK/APEX Phase II/2015(G)]
Ink-jet printing is a potentially attractive technique for printing of components for organic electronic devices primarily due to its ability to print patterned layers and reduced ink wastage. However, the mechanism of film formation is quite complex and needs an understanding of various printing parameters on the film growth. In this manuscript, we successfully demonstrate ink-jet printing of smooth zinc oxide (ZnO) thin films with controlled thickness as electron transport layers for inverted organic solar cell devices fabricated on indium tin oxide coated glass substrates. The parameters that strongly affect the formation of a continuous ZnO thin film with controlled thickness are ink concentration and viscosity, substrate surface treatment, drop spacing, substrate temperature during printing and the annealing temperature, affected by a combination of surface energetics, surface tension of the ink and the rate of solvent evaporation. The results suggest that one can achieve a transmittance of >85% for a 45 nm thin ZnO film possessing uniform structure and morphology, fabricated using a drop spacing of 40 -50 mu m at an ink viscosity of 4.70 cP with substrate held at room temperature. The P3HT:PC61BM inverted organic solar cell devices fabricated using printed ZnO films as electron transporting layers exhibit an efficiency of similar to 3.4-3.5%, comparable to that shown by the devices fabricated on spin coated ZnO films. Finally, the device with printed P3HT: PC61BM active layer on printed ZnO layer showed a device efficiency of ca. 3.2% suggesting that nearly completely printed devices can deliver a comparable performance to the spin coated devices. (C) 2016 Elsevier B.V. All rights reserved.
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