In JoVE (1)
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Articles by Joanna A. Guse in JoVE
Rekombination Dynamics i Tunnfilms solceller material via tidsupplöst Microwave Konduktivitet Joanna A. Guse1,2, Timothy W. Jones3, Andrew Danos4, Dane R. McCamey1,2 1ARC Centre of Excellence in Exciton Science, 2School of Physics, University of New South Wales, 3CSIRO, CSIRO Energy Centre, 4School of Chemistry, University of New South Wales
Other articles by Joanna A. Guse on PubMed
Spectral Dependence of Direct and Trap-mediated Recombination Processes in Lead Halide Perovskites Using Time Resolved Microwave Conductivity Physical Chemistry Chemical Physics : PCCP. 04, 2016 | Pubmed ID: 27067120 Elucidating the decay mechanisms of photoexcited charge carriers is key to improving the efficiency of solar cells based on organo-lead halide perovskites. Here we investigate the spectral dependence (via above-, inter- and sub-bandgap optical excitations) of direct and trap-mediated decay processes in CH3NH3PbI3 using time resolved microwave conductivity (TRMC). We find that the total end-of-pulse mobility is excitation wavelength dependent - the mobility is maximized (172 cm(2) V(-1) s(-1)) when charge carriers are excited by near bandgap light (780 nm) in the low charge carrier density regime (10(9) photons per cm(2)), and is lower for above- and sub-bandgap excitations. Direct recombination is found to occur on the 100-400 ns timescale across excitation wavelengths near and above the bandgap, whereas indirect recombination processes displayed distinct behaviour following above- and sub-bandgap excitations, suggesting the influence of different trap distributions on recombination dynamics.