High carrier mobility is often invoked to justify the exceptionally long diffusion length in CH3NH3PbI3 perovskites. Using a combination of an ab initio band structure and scattering models, we present clear evidence that large electrical and Hall mobilities are crucially related to the low scattering rate of carriers with polar optical phonons, which represents the dominant mobility-limiting mechanism at room temperature. With a charge-injection regime at room temperature, we obtained carrier relaxation times (tau(rel)) of similar to 10 fs, which are typical of polar inorganic semiconductors, and electrical mobilities (mu) as high as similar to 60 cm(2) V-1 s(-1) and 40 cm(2) V-1 s(-1) for electrons and holes, respectively, which were robustly independent on the injected carrier density in the range of n similar to 10(14) cm(-3) to 10(20) cm(-3). In the absence of a significant concentration of trapping centers, these mobilities foster diffusion lengths of similar to 10 mu m for the low injection density regime (n similar to 10(15) cm(-3)), which are in agreement with recent measurements for highly pure single-crystal perovskites.
Low electron-polar optical phonon scattering as a fundamental aspect of carrier mobility in methylammonium lead halide CH3NH3PbI3 perovskites
Filippetti A;Mattoni A;Caddeo C;Saba M I;Delugas P
2016
Abstract
High carrier mobility is often invoked to justify the exceptionally long diffusion length in CH3NH3PbI3 perovskites. Using a combination of an ab initio band structure and scattering models, we present clear evidence that large electrical and Hall mobilities are crucially related to the low scattering rate of carriers with polar optical phonons, which represents the dominant mobility-limiting mechanism at room temperature. With a charge-injection regime at room temperature, we obtained carrier relaxation times (tau(rel)) of similar to 10 fs, which are typical of polar inorganic semiconductors, and electrical mobilities (mu) as high as similar to 60 cm(2) V-1 s(-1) and 40 cm(2) V-1 s(-1) for electrons and holes, respectively, which were robustly independent on the injected carrier density in the range of n similar to 10(14) cm(-3) to 10(20) cm(-3). In the absence of a significant concentration of trapping centers, these mobilities foster diffusion lengths of similar to 10 mu m for the low injection density regime (n similar to 10(15) cm(-3)), which are in agreement with recent measurements for highly pure single-crystal perovskites.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.