Rational Material, Interface, and Device Engineering for High-Performance and Stable Perovskite Solar Cells
Alex K-Y Jen a b
a University of Washington, US, Seattle, United States
b Department of Materials Science, City University of Hong Kong, Kowloon, HK, Hong Kong
Asia-Pacific International Conference on Perovskite, Organic Photovoltaics and Optoelectronics
Proceedings of International Conference Asia-Pacific Hybrid and Organic Photovoltaics 2018 (AP-HOPV18)
Kitakyūshū-shi, Japan, 2018 January 28th - 30th
Organizers: Shuzi Hayase, Juan Bisquert and Hiroshi Segawa
Invited Speaker, Alex K-Y Jen, presentation 055
DOI: https://doi.org/10.29363/nanoge.ap-hopv.2018.055
Publication date: 27th October 2017

Advances in controlled synthesis, processing, and tuning of the properties of peroskites have enabled significantly enhanced performance of hybrid perovskite solar cells. The performance of hybrid perovskite solar cells is strongly dependent on their efficiency in harvesting light, charge transport, and charge collection at the metal/organic/perovskite or the metal/metal oxide perovskite interfaces. In this talk, an integrated approach of combining material design, interface, and device engineering to significantly improve the performance and stability of organic and hybrid perovskite photovoltaic cells (PCE of >20%) will be discussed. At the end, several new device architectures and optical engineering strategies to make tandem cells and OPV/Perovskite hybrid solar cells will be discussed to explore the full promise of perovskite hybrid solar cells.

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