Protecting hot carriers by tuning hybrid perovskite structures with alkali cations

A small amount of alkali metals goes a long way toward improving hybrid perovskites for hot carrier solar cells. Successful implementation of hot carrier solar cells requires preserving high carrier temperature as carriers migrate through the active layer. Here, we demonstrated that addition of alka...

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Bibliographic Details
Published in:Science advances 2020-10, Vol.6 (43)
Main Authors: Wang, Ti, Jin, Linrui, Hidalgo, Juanita, Chu, Weibin, Snaider, Jordan M., Deng, Shibin, Zhu, Tong, Lai, Barry, Prezhdo, Oleg, Correa-Baena, Juan-Pablo, Huang, Libai
Format: Article
Language:English
Subjects:
Chemical Physics
Condensed Matter Physics
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
MATERIALS SCIENCE
SciAdv r-articles
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Summary:A small amount of alkali metals goes a long way toward improving hybrid perovskites for hot carrier solar cells. Successful implementation of hot carrier solar cells requires preserving high carrier temperature as carriers migrate through the active layer. Here, we demonstrated that addition of alkali cations in hybrid organic-inorganic lead halide perovskites led to substantially elevated carrier temperature, reduced threshold for phonon bottleneck, and enhanced hot carrier transport. The synergetic effects from the Rb, Cs, and K cations result in ~900 K increase in the effective carrier temperature at a carrier density around 10 18 cm −3 with an excitation 1.45 eV above the bandgap. In the doped thin films, the protected hot carriers migrate 100 s of nanometers longer than the undoped sample as imaged by ultrafast microscopy. We attributed these improvements to the relaxation of lattice strain and passivation of halide vacancies by alkali cations based on x-ray structural characterizations and first principles calculations.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.abb1336