Coupling to octahedral tilts in halide perovskite nanocrystals induces phonon-mediated attractive interactions between excitons

Author:

Yazdani NuriORCID,Bodnarchuk Maryna I.ORCID,Bertolotti FedericaORCID,Masciocchi NorbertoORCID,Fureraj InaORCID,Guzelturk BurakORCID,Cotts Benjamin L.ORCID,Zajac MarcORCID,Rainò GabrieleORCID,Jansen MaximilianORCID,Boehme Simon C.ORCID,Yarema MaksymORCID,Lin Ming-FuORCID,Kozina Michael,Reid AlexanderORCID,Shen XiaozheORCID,Weathersby Stephen,Wang XijieORCID,Vauthey EricORCID,Guagliardi AntoniettaORCID,Kovalenko Maksym V.ORCID,Wood VanessaORCID,Lindenberg Aaron M.ORCID

Abstract

AbstractUnderstanding the origin of electron–phonon coupling in lead halide perovskites is key to interpreting and leveraging their optical and electronic properties. Here we show that photoexcitation drives a reduction of the lead–halide–lead bond angles, a result of deformation potential coupling to low-energy optical phonons. We accomplish this by performing femtosecond-resolved, optical-pump–electron-diffraction-probe measurements to quantify the lattice reorganization occurring as a result of photoexcitation in nanocrystals of FAPbBr3. Our results indicate a stronger coupling in FAPbBr3 than CsPbBr3. We attribute the enhanced coupling in FAPbBr3 to its disordered crystal structure, which persists down to cryogenic temperatures. We find the reorganizations induced by each exciton in a multi-excitonic state constructively interfere, giving rise to a coupling strength that scales quadratically with the exciton number. This superlinear scaling induces phonon-mediated attractive interactions between excitations in lead halide perovskites.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy

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