posted on 2015-12-17, 06:40authored byKai Chen, Alex J. Barker, Francis
L. C. Morgan, Jonathan E. Halpert, Justin M. Hodgkiss
The remarkable rise of organometal halide perovskites as solar
photovoltaic materials has been followed by promising developments
in light-emitting devices, including lasers. Here we present unique
insights into the processes leading to photon emission in these materials.
We employ ultrafast broadband photoluminescence (PL) and transient
absorption spectroscopies to directly link density dependent ultrafast
charge dynamics to PL. We find that exceptionally strong PL at the
band edge is preceded by thermalization of free charge carriers. Short-lived
PL above the band gap is clear evidence of nonexcitonic emission from
hot carriers, and ultrafast PL depolarization confirms that uncorrelated
charge pairs are precursors to photon emission. Carrier thermalization
has a profound effect on amplified stimulated emission at high fluence;
the delayed onset of optical gain we resolve within the first 10 ps
and the unusual oscillatory behavior are both consequences of the
kinetic interplay between carrier thermalization and optical gain.