Free
Carrier Emergence and Onset of Electron–Phonon
Coupling in Methylammonium Lead Halide Perovskite Films
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Abstract
Sub-10 fs resolution pump–probe
experiments on methylammonium
lead halide perovskite films are described. Initial response to photoexcitation
is assigned to localized hot excitons which dissociate to free carriers.
This is attested to by band integrals of the pump–probe spectra
where photoinduced bleaching rises abruptly 20 fs after photoexcitation.
Later stages of spectral evolution are consistent with hot carrier
cooling, during which state filling induced bleaching of interband
and exciton transitions curiously more than doubles. Electron coupling
to optical phonons is observed as periodic spectral modulations in
the pump–probe data of both films. Fourier analysis identifies
active phonons at ∼100 and 300 wavenumbers pertaining to the
lead-halide framework and organic cation motions, respectively. Coupling
strengths estimated from the depth of these modulations are in the
weak coupling limit, in agreement with values extracted from temperature
dependent emission line shape analysis. These findings support free
carriers in these materials existing as large polarons. Accordingly,
these modes are probably not dictating the moderate carrier mobility
in this material