1. Self-Organized Discotic Liquid Crystals for High-Efficiency Organic Photovoltaics
- Author
-
Schmidt-Mende, L., Fechtenkotter, A., Mullen, K., Moons, E., Friend, R. H., and MacKenzie, J. D.
- Subjects
Solar batteries -- Research ,Solar cells -- Research ,Liquid crystals -- Research ,Science and technology - Abstract
Self-organization of liquid crystalline and crystalline-conjugated materials has been used to create, directly from solution, thin films with structures optimized for use in photodiodes. The discotic liquid crystal hexa-peri-hexabenzocoronene was used in combination with a perylene dye to produce thin films with vertically segregated perylene and hexabenzocoronene, with large interfacial surface area. When incorporated into diode structures, these films show photovoltaic response with external quantum efficiencies of more than 34 percent near 490 nanometers. These efficiencies result from efficient photoinduced charge transfer between the hexabenzocoronene and perylene, as well as from effective transport of charges through vertically segregated perylene and hexabenzocoronene Π systems. This development demonstrates that complex structures can be engineered from novel materials by means of simple solution-processing steps and may enable inexpensive, high-performance, thin-film photovoltaic technology., Solution-processible conjugated organic materials combine the electronic properties of semiconductors and the processibility of polymeric materials. This makes them suitable for commercial applications in optoelectronic technologies, in which the adaptability, [...]
- Published
- 2001