Enhanced flexible optoelectronic devices by controlling the wettability of an organic bifacial interlayer
Open Access
- 3 March 2021
- journal article
- research article
- Published by Springer Science and Business Media LLC in Communications Materials
- Vol. 2 (1), 1-10
- https://doi.org/10.1038/s43246-021-00131-4
Abstract
Solution-processed flexible organic optoelectronic devices have great potential as low-cost organic photovoltaics for energy harvesting, and in organic light-emitting diodes as a lighting source. However, a major challenge for improving device performance and stability is the different interfacial characteristics of the hydrophobic organic layers and hydrophilic transparent electrodes, particularly for flexible devices. Surface wetting controlled interfacial engineering can provide a useful method to develop highly efficient flexible organic devices. Here, an unsaturated fatty acid-modified ethoxylated polyethyleneimine organic interfacial layer is designed, which is hydrophobic or hydrophilic on different interfaces. This interlayer results in a power conversion efficiency of 10.57% for rigid and 9.04% for flexible photovoltaic devices. Furthermore, the long-term air storage stability for 250 h is substantially improved, retaining 87.75% efficiency without encapsulation, due to the wettability driven improvement of the optical and electronic properties of the cathode interfacial layer. The performance of organic light emitting diodes also benefitted from the interlayer. This study provides a strategy to simultaneously improve efficiency and stability by controlling the wettability of the interfacial layer.Keywords
Funding Information
- Ministry of Knowledge Economy | Korea Institute of Energy Technology Evaluation and Planning (KETEP No. 2018201010636A)
- National Research Foundation of Korea (NRF 2020M3H4A3081820)
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