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Merck

Perovskite energy funnels for efficient light-emitting diodes.

Nature nanotechnology (2016-06-28)
Mingjian Yuan, Li Na Quan, Riccardo Comin, Grant Walters, Randy Sabatini, Oleksandr Voznyy, Sjoerd Hoogland, Yongbiao Zhao, Eric M Beauregard, Pongsakorn Kanjanaboos, Zhenghong Lu, Dong Ha Kim, Edward H Sargent
要旨

Organometal halide perovskites exhibit large bulk crystal domain sizes, rare traps, excellent mobilities and carriers that are free at room temperature-properties that support their excellent performance in charge-separating devices. In devices that rely on the forward injection of electrons and holes, such as light-emitting diodes (LEDs), excellent mobilities contribute to the efficient capture of non-equilibrium charge carriers by rare non-radiative centres. Moreover, the lack of bound excitons weakens the competition of desired radiative (over undesired non-radiative) recombination. Here we report a perovskite mixed material comprising a series of differently quantum-size-tuned grains that funnels photoexcitations to the lowest-bandgap light-emitter in the mixture. The materials function as charge carrier concentrators, ensuring that radiative recombination successfully outcompetes trapping and hence non-radiative recombination. We use the new material to build devices that exhibit an external quantum efficiency (EQE) of 8.8% and a radiance of 80 W sr-1 m-2. These represent the brightest and most efficient solution-processed near-infrared LEDs to date.

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Sigma-Aldrich
di-n-butylammonium dimethylammonium lead(II) decaiodide, n = 3
Sigma-Aldrich
di-n-butylammonium methylammonium lead(II) heptaiodide, n = 2
Sigma-Aldrich
di-n-butylammonium tetramethylammonium lead(II) hexadecaiodide, n = 5
Sigma-Aldrich
di-n-butylammonium trimethylammonium lead(II) tridecaiodide, n = 4