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Revealing two heat-annealing related photoproduct systems and widely existed subgrain domains in organolead perovskite

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arxiv 1705.03757 v1 pith:PNEHOZ2Y submitted 2017-05-04 cond-mat.mtrl-sci physics.chem-ph

Revealing two heat-annealing related photoproduct systems and widely existed subgrain domains in organolead perovskite

classification cond-mat.mtrl-sci physics.chem-ph
keywords perovskitefilmsheat-annealingsubgrainorganoleadphotoproductrecentlyrelated
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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For highly interested organolead perovskite based solar cells, the photoproducts are regarded as the co-existed exciton and free carriers. In this study, we carefully re-examined this conclusion with our recently developed density-resolved spectroscopic method. Heat-annealing related two photoproduct systems are observed. We found that the widely accepted model is only true for single crystal and freshly made films without heat-annealing. For those sufficiently heat-annealed films, another system presenting significant emissive exciton-carrier collision (ECC) is discovered. In addition, the appearing of ECC indicates the emerging of an internal morphology after heat annealing, which is assigned to a recently discussed twinning subgrain structure. We proved that such subgrain structures broadly exist in perovskite films. This finding could prove the morphological basis for high performance of perovskite working layers.

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