Room‐Temperature Ferroelectric Material Composed of a Two‐Dimensional Metal Halide Double Perovskite for X‐ray Detection

Although two‐dimensional (2D) metal–halide double perovskites display versatile physical properties due to their huge structural compatibility, room‐temperature ferroelectric behavior has not yet been reported for this fascinating family. Here, we designed a room‐temperature ferroelectric material c...

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Veröffentlicht in:	Angewandte Chemie International Edition 2020-08, Vol.59 (33), p.13879-13884
Hauptverfasser:	Guo, Wuqian, Liu, Xitao, Han, Shiguo, Liu, Yi, Xu, Zhiyun, Hong, Maochun, Luo, Junhua, Sun, Zhihua
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Sprache:	eng
Schlagworte:	Cations Curie temperature Ferroelectric materials Ferroelectricity Metal halides Perovskites phase transition Photons Physical properties Two dimensional materials X-ray detection
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creator	Guo, Wuqian Liu, Xitao Han, Shiguo Liu, Yi Xu, Zhiyun Hong, Maochun Luo, Junhua Sun, Zhihua
description	Although two‐dimensional (2D) metal–halide double perovskites display versatile physical properties due to their huge structural compatibility, room‐temperature ferroelectric behavior has not yet been reported for this fascinating family. Here, we designed a room‐temperature ferroelectric material composed of 2D halide double perovskites, (chloropropylammonium)4AgBiBr8, using an organic asymmetric dipolar ligand. It exhibits concrete ferroelectricity, including a Curie temperature of 305 K and a notable spontaneous polarization of ≈3.2 μC cm−2, triggered by dynamic ordering of the organic cation and the tilting motion of heterometallic AgBr6/BiBr6 octahedra. Besides, the alternating array of inorganic perovskite sheets and organic cations endows large mobility‐lifetime product (μτ=1.0×10−3 cm2 V−1) for detecting X‐ray photons, which is almost tenfold higher than that of CH3NH3PbI3 wafers. As far as we know, this is the first study on an X‐ray‐sensitive ferroelectric material composed of 2D halide double perovskites. Our findings afford a promising platform for exploring new ferroelectric materials toward further device applications. Perovskite with new properties: A room‐temperature ferroelectric 2D metal–halide double perovskite, (CPA)4AgBiBr8, exhibits a notable spontaneous polarization of 3.2 μC cm−2 and a Curie temperature of 305 K. Its 2D alternating array of inorganic perovskite frameworks and organic cations endows it with a large mobility‐lifetime product (≈1.0×10−3 cm2 V−1) for detecting X‐ray photons.
doi_str_mv	10.1002/anie.202004235
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Here, we designed a room‐temperature ferroelectric material composed of 2D halide double perovskites, (chloropropylammonium)4AgBiBr8, using an organic asymmetric dipolar ligand. It exhibits concrete ferroelectricity, including a Curie temperature of 305 K and a notable spontaneous polarization of ≈3.2 μC cm−2, triggered by dynamic ordering of the organic cation and the tilting motion of heterometallic AgBr6/BiBr6 octahedra. Besides, the alternating array of inorganic perovskite sheets and organic cations endows large mobility‐lifetime product (μτ=1.0×10−3 cm2 V−1) for detecting X‐ray photons, which is almost tenfold higher than that of CH3NH3PbI3 wafers. As far as we know, this is the first study on an X‐ray‐sensitive ferroelectric material composed of 2D halide double perovskites. Our findings afford a promising platform for exploring new ferroelectric materials toward further device applications. Perovskite with new properties: A room‐temperature ferroelectric 2D metal–halide double perovskite, (CPA)4AgBiBr8, exhibits a notable spontaneous polarization of 3.2 μC cm−2 and a Curie temperature of 305 K. 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Here, we designed a room‐temperature ferroelectric material composed of 2D halide double perovskites, (chloropropylammonium)4AgBiBr8, using an organic asymmetric dipolar ligand. It exhibits concrete ferroelectricity, including a Curie temperature of 305 K and a notable spontaneous polarization of ≈3.2 μC cm−2, triggered by dynamic ordering of the organic cation and the tilting motion of heterometallic AgBr6/BiBr6 octahedra. Besides, the alternating array of inorganic perovskite sheets and organic cations endows large mobility‐lifetime product (μτ=1.0×10−3 cm2 V−1) for detecting X‐ray photons, which is almost tenfold higher than that of CH3NH3PbI3 wafers. As far as we know, this is the first study on an X‐ray‐sensitive ferroelectric material composed of 2D halide double perovskites. Our findings afford a promising platform for exploring new ferroelectric materials toward further device applications. Perovskite with new properties: A room‐temperature ferroelectric 2D metal–halide double perovskite, (CPA)4AgBiBr8, exhibits a notable spontaneous polarization of 3.2 μC cm−2 and a Curie temperature of 305 K. 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Perovskite with new properties: A room‐temperature ferroelectric 2D metal–halide double perovskite, (CPA)4AgBiBr8, exhibits a notable spontaneous polarization of 3.2 μC cm−2 and a Curie temperature of 305 K. Its 2D alternating array of inorganic perovskite frameworks and organic cations endows it with a large mobility‐lifetime product (≈1.0×10−3 cm2 V−1) for detecting X‐ray photons.</abstract><cop>Weinheim</cop><pub>Wiley Subscription Services, Inc</pub><doi>10.1002/anie.202004235</doi><tpages>6</tpages><edition>International ed. in English</edition><orcidid>https://orcid.org/0000-0003-2659-3927</orcidid></addata></record>
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subjects	Cations Curie temperature Ferroelectric materials Ferroelectricity Metal halides Perovskites phase transition Photons Physical properties Two dimensional materials X-ray detection
title	Room‐Temperature Ferroelectric Material Composed of a Two‐Dimensional Metal Halide Double Perovskite for X‐ray Detection
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