Mengxia Liu scite author profile

Understanding carrier dynamics and transport in quantum dot based heterostructures is crucial for unlocking their full potential for optoelectronic applications. Here we report the direct visualization of carrier propagation in PbS CQD solids and quantum-dot-in-perovskite heterostructures using femtosecond transient absorption microscopy. We reveal three distinct transport regimes: an initial superdiffusive transport persisting over hundreds of femtoseconds, an Auger-assisted subdiffusive transport before thermal equilibrium is achieved, and a final hopping regime. We demonstrate that the superdiffusive transport lengths correlate strongly with the degree of energetic disorder and carrier delocalization. By tailoring the perovskite content in heterostructures, we obtained a superdiffusive transport length exceeding 90 nm at room temperature and an equivalent diffusivity of up to 106 cm 2 s −1 , which is 4 orders of magnitude higher than the steady-state values. These findings introduce promising strategies to harness nonequilibrium transport phenomena for more efficient optoelectronic devices.

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Colloidal quantum dots and metal halide perovskite hybridization for solar cell stability and performance enhancement

Yan

Liu

et al. 2021

J. Mater. Chem. A

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Mengxia Liu

Ultrafast exciton transport at early times in quantum dot solids

Nonequilibrium Carrier Transport in Quantum Dot Heterostructures

Colloidal quantum dots and metal halide perovskite hybridization for solar cell stability and performance enhancement

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