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W2945343441 endingPage "480" @default.
W2945343441 startingPage "465" @default.
W2945343441 abstract "Summary The two-dimensional (2D) layered organic-inorganic hybrid perovskites have demonstrated better performance in applications than their 3D counterparts due to their promising stability and excellent optoelectronic properties. In particular, the 2D perovskites show even better performance for certain optoelectronic devices, especially the ones fabricated on (001) plane. Unfortunately, these advantageous characteristics cannot be easily extracted from the randomly oriented microcrystalline films. Herein, we developed a surface-tension-controlled crystallization method to prepare large 2D (C6H5C2H4NH3)2PbI4 ((PEA)2PbI4) perovskite single crystals (PSCs). Using this technique, we have harvested some inch-sized 2D (PEA)2PbI4 PSCs, with the largest one reaching 36 mm in length, resulting in extraordinary device performance. More specifically, the photodetectors fabricated on the (001) plane exhibit responsivity as high as 139.6 A W−1, external quantum efficiency 37,719.6%, detectivity 1.89 × 1015 cm Hz1/2 W−1, and response speed as fast as τrise = 21 μs and τdecay = 37 μs." @default.
W2945343441 created "2019-05-29" @default.
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W2945343441 date "2019-08-01" @default.
W2945343441 modified "2023-10-16" @default.
W2945343441 title "Surface-Tension-Controlled Crystallization for High-Quality 2D Perovskite Single Crystals for Ultrahigh Photodetection" @default.
W2945343441 cites W1443040875 @default.
W2945343441 cites W1677429112 @default.
W2945343441 cites W1749232277 @default.
W2945343441 cites W1811054879 @default.
W2945343441 cites W1912809387 @default.
W2945343441 cites W1969782868 @default.
W2945343441 cites W1973034075 @default.
W2945343441 cites W1979086238 @default.
W2945343441 cites W2006304022 @default.
W2945343441 cites W2006619554 @default.
W2945343441 cites W2007071026 @default.
W2945343441 cites W2020066768 @default.
W2945343441 cites W2033597029 @default.
W2945343441 cites W2034043507 @default.
W2945343441 cites W2039041811 @default.
W2945343441 cites W2047568851 @default.
W2945343441 cites W2056778445 @default.
W2945343441 cites W2141021363 @default.
W2945343441 cites W2158561788 @default.
W2945343441 cites W2304100676 @default.
W2945343441 cites W2321206690 @default.
W2945343441 cites W2321469593 @default.
W2945343441 cites W2338353692 @default.
W2945343441 cites W2424301850 @default.
W2945343441 cites W2474894284 @default.
W2945343441 cites W2507133829 @default.
W2945343441 cites W2510444334 @default.
W2945343441 cites W2512779742 @default.
W2945343441 cites W2520075903 @default.
W2945343441 cites W2524488697 @default.
W2945343441 cites W2533429430 @default.
W2945343441 cites W2547065693 @default.
W2945343441 cites W2564888187 @default.
W2945343441 cites W2572703040 @default.
W2945343441 cites W2576659444 @default.
W2945343441 cites W2589563063 @default.
W2945343441 cites W2589687239 @default.
W2945343441 cites W2596871742 @default.
W2945343441 cites W2606866881 @default.
W2945343441 cites W2612173481 @default.
W2945343441 cites W2613245846 @default.
W2945343441 cites W2724648670 @default.
W2945343441 cites W2733171239 @default.
W2945343441 cites W2735132717 @default.
W2945343441 cites W2745625487 @default.
W2945343441 cites W2753102807 @default.
W2945343441 cites W2755904679 @default.
W2945343441 cites W2759146588 @default.
W2945343441 cites W2767197417 @default.
W2945343441 cites W2767375089 @default.
W2945343441 cites W2771033947 @default.
W2945343441 cites W2775001084 @default.
W2945343441 cites W2776481253 @default.
W2945343441 cites W2783600645 @default.
W2945343441 cites W2790131079 @default.
W2945343441 cites W2796127803 @default.
W2945343441 cites W2801546690 @default.
W2945343441 cites W2802426781 @default.
W2945343441 cites W2806899900 @default.
W2945343441 cites W2810288826 @default.
W2945343441 cites W2852164233 @default.
W2945343441 cites W2884254810 @default.
W2945343441 cites W2885088646 @default.
W2945343441 cites W2889242774 @default.
W2945343441 cites W2890564463 @default.
W2945343441 cites W2891146712 @default.
W2945343441 cites W2893566826 @default.
W2945343441 cites W2904190616 @default.
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W2945343441 doi "https://doi.org/10.1016/j.matt.2019.04.002" @default.
W2945343441 hasPublicationYear "2019" @default.
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