Liang Zhao scite author profile

Avoiding buried voids The buried interfaces of perovskite solar cells are difficult to alter after synthesis. During manufacture, Chen et al . removed perovskite films with dimethyl sulfoxide solvent from the hole-transfer layer and observed a substantial void fraction that degraded film performance. Replacing most of the dimethyl sulfoxide with carbohydrazide, a lead-coordinating compound with a much higher boiling point, eliminated voids. Such solar cells maintained high power conversion efficiency after 550 hours of operation at 60°C. —PDS

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Perovskite-filled membranes for flexible and large-area direct-conversion X-ray detector arrays

Zhao

et al. 2020

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Heterojunction structures for reduced noise in large-area and sensitive perovskite x-ray detectors

et al. 2021

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Polycrystalline perovskites can be readily fabricated into large areas using solution depositions; however, they suffer from large dark currents that are tens to hundreds times higher than industrially relevant values, limiting their application in low-dose x-ray detection. Here, we show that the application of a heterojunction structure into polycrystalline films significantly reduces the dark current density by more than 200 times to subnanoampere per square centimeter without reducing the sensitivity of the detectors. The heterojunction perovskite films are formed by laminating several membrane films filled with perovskites of different bandgaps. A gradient bandgap is formed during annealing. The detectors have a lowest detectable dose rate of 13.8 ± 0.29 nGy air s −1 for 40-keV x-ray and can conduct dynamic x-ray imaging at a low-dose rate of 32.2 nGy air s −1 . Simulation and experimental analysis show that the heterojunction is tolerant of halide diffusion and can be stable for over 15 years.

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Highly Efficient Pure‐Blue Light‐Emitting Diodes Based on Rubidium and Chlorine Alloyed Metal Halide Perovskite

Yang

et al. 2021

Advanced Materials

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Perovskite light‐emitting diodes (PeLEDs) are promising candidates for display and solid‐state lighting, due to their tunable colors, high conversion efficiencies, and low cost. However, the performance of blue PeLEDs is far inferior to that of the near‐infrared, red, and green counterparts. Here, the fabrication of pure‐blue PeLEDs with an emission peak at 475 nm, a peak external quantum efficiency of 10.1%, and a maximum luminance of 14 000 cd m−2 is demonstrated by tailoring the compositions of perovskites. The pure‐blue electroluminescence is achieved by simultaneous addition of rubidium and chlorine ions into CsPbBr3 and incorporation of phenylethylammonium chloride forms quasi‐2D hybrid perovskites. The combination of these composition engineering results in blueshifted emissions without reducing the quantum yield. The judicious alloying is shown to be critical to result in the better morphology with suppressed current leakage and enhanced light outcoupling.

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Efficient monolithic all-perovskite tandem solar modules with small cell-to-module derate

et al. 2022

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Liang Zhao

Stabilizing perovskite-substrate interfaces for high-performance perovskite modules

Perovskite-filled membranes for flexible and large-area direct-conversion X-ray detector arrays

Heterojunction structures for reduced noise in large-area and sensitive perovskite x-ray detectors

Highly Efficient Pure‐Blue Light‐Emitting Diodes Based on Rubidium and Chlorine Alloyed Metal Halide Perovskite

Efficient monolithic all-perovskite tandem solar modules with small cell-to-module derate

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