Proceedings Article | 18 September 2018
KEYWORDS: Organic semiconductors, Semiconductor materials, Semiconductors, Organic photovoltaics, Solar cells, Interfaces, Solar energy, Electronic components, Photonics, Molecules
Organic semiconductors have been studied extensively with regards to their charge transport ability and have recently been demonstrated to be a viable option for large-area, commercial electronic devices and photonics. Thus far, various synthetic strategies for organic semiconductors have been reported to enhance their performance.
Firstly, we developed small molecule organic semiconductors for solution processed solar cell because of high reproducibility, easy purification, and more over high crystallinity with oustanding stacking properties. ( JMC, 2, 4937,2014, ChemSusChem,8,9, 1548, 2015, ACS Applied Materials & Interfaces, 2016, 8, 34353, Solr Energy, 150, 9095, 2017, ACS Applied Materials & Interfaces, accepted, 2018, etc)
Secondly, we developed polymer organic semiconductors for solution processed solar cell. ( Chem, Commum, 51, 8, 1524, 2015, ACS Applied Materials & Interfaces, 7, 16, 8859, 2015, Macomolecules, 48, 12, 2015, Advnaced Functional Materials, 25, 3833, 2015, Macromolecules, 49, 7844, 2016, Chemistry of Materials 5, 2135, 2017, etc)
Finally, we developed p-type and n-type materials for perovskite solar cells (EES, 7, 1454, 2014, Advnced Energy Materials, Accepted, 2018)