A2Bn-1PbnI3n+1 (A = BA, PEA; B = MA; n = 1, 2): engineering quantum-well crystals for high mass density and fast scintillators
Quantum-well (QW) hybrid organic-inorganic perovskite (HOIP) crystals, e.g., A2PbX4 (A = BA, PEA; X = Br, I), demonstrated significant potentials as scintillating materials for wide energy radiation detection compared to their individual three-dimensional (3D) counterparts, e.g., BPbX3 (B = MA). Ins...
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sg-ntu-dr.10356-1754892024-08-15T05:52:02Z A2Bn-1PbnI3n+1 (A = BA, PEA; B = MA; n = 1, 2): engineering quantum-well crystals for high mass density and fast scintillators Md Abdul Kuddus Sheikh Kowal, Dominik Muhammad Haris Mahyuddin Cala', Roberto Auffray, Etiennette Witkowski, Marcin Eugeniusz Makowski, Michal Drozdowski, Winicjusz Wang, Hong Dujardin, Christophe Cortecchia, Daniele Muhammad Danang Birowosuto School of Electrical and Electronic Engineering Physics Anions Crystal structure Crystals Electrical conductivity Light Quantum-well (QW) hybrid organic-inorganic perovskite (HOIP) crystals, e.g., A2PbX4 (A = BA, PEA; X = Br, I), demonstrated significant potentials as scintillating materials for wide energy radiation detection compared to their individual three-dimensional (3D) counterparts, e.g., BPbX3 (B = MA). Inserting 3D into QW structures resulted in new structures, namely A2BPb2X7 perovskite crystals, and they may have promising optical and scintillation properties toward higher mass density and fast timing scintillators. In this article, we investigate the crystal structure as well as optical and scintillation properties of iodide-based QW HOIP crystals, A2PbI4 and A2MAPb2I7. A2PbI4 crystals exhibit green and red emission with the fastest PL decay time <1 ns, while A2MAPb2I7 crystals exhibit a high mass density of >3.0 g/cm3 and tunable smaller bandgaps <2.1 eV resulting from quantum and dielectric confinement. We observe that A2PbI4 and PEA2MAPb2I7 show emission under X- and γ-ray excitations. We further observe that some QW HOIP iodide scintillators exhibit shorter radiation absorption lengths (∼3 cm at 511 keV) and faster scintillation decay time components (∼0.5 ns) compared to those of QW HOIP bromide scintillators. Finally, we investigate the light yields of iodide-based QW HOIP crystals at 10 K (∼10 photons/keV), while at room temperature they still show pulse height spectra with light yields between 1 and 2 photons/keV, which is still >5 times lower than those for bromides. The lower light yields can be the drawbacks of iodide-based QW HOIP scintillators, but the promising high mass density and decay time results of our study can provide the right pathway for further improvements toward fast-timing applications. Ministry of Education (MOE) Published version This work has been performed in the framework of the Crystal Clear Collaboration. D.C. acknowledges the support by the ERC Starting Grant project SUPER under Grant Agreement No. 101040681. M.H.M., H.W., and M.D.B. acknowledge research funding from the Institut Teknologi Bandung under the “Riset ITB 2023” scheme (Grant 308/IT1.B07.1/TA.01/2023), Singapore Ministry of Education Academic Research Fund Tier 1 (RG149/19), and the starting funding from Lukasiewicz Research Network-PORT, respectively. 2024-04-26T00:08:57Z 2024-04-26T00:08:57Z 2023 Journal Article Md Abdul Kuddus Sheikh, Kowal, D., Muhammad Haris Mahyuddin, Cala', R., Auffray, E., Witkowski, M. E., Makowski, M., Drozdowski, W., Wang, H., Dujardin, C., Cortecchia, D. & Muhammad Danang Birowosuto (2023). A2Bn-1PbnI3n+1 (A = BA, PEA; B = MA; n = 1, 2): engineering quantum-well crystals for high mass density and fast scintillators. Journal of Physical Chemistry C, 127(22), 10737-10747. https://dx.doi.org/10.1021/acs.jpcc.3c00824 1932-7447 https://hdl.handle.net/10356/175489 10.1021/acs.jpcc.3c00824 37313122 2-s2.0-85156271326 22 127 10737 10747 en RG149/19 Journal of Physical Chemistry C © 2023 The Authors. Published by American Chemical Society. This publication is licensed under CC-BY 4.0. application/pdf |
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Physics Anions Crystal structure Crystals Electrical conductivity Light |
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Physics Anions Crystal structure Crystals Electrical conductivity Light Md Abdul Kuddus Sheikh Kowal, Dominik Muhammad Haris Mahyuddin Cala', Roberto Auffray, Etiennette Witkowski, Marcin Eugeniusz Makowski, Michal Drozdowski, Winicjusz Wang, Hong Dujardin, Christophe Cortecchia, Daniele Muhammad Danang Birowosuto A2Bn-1PbnI3n+1 (A = BA, PEA; B = MA; n = 1, 2): engineering quantum-well crystals for high mass density and fast scintillators |
| description |
Quantum-well (QW) hybrid organic-inorganic perovskite (HOIP) crystals, e.g., A2PbX4 (A = BA, PEA; X = Br, I), demonstrated significant potentials as scintillating materials for wide energy radiation detection compared to their individual three-dimensional (3D) counterparts, e.g., BPbX3 (B = MA). Inserting 3D into QW structures resulted in new structures, namely A2BPb2X7 perovskite crystals, and they may have promising optical and scintillation properties toward higher mass density and fast timing scintillators. In this article, we investigate the crystal structure as well as optical and scintillation properties of iodide-based QW HOIP crystals, A2PbI4 and A2MAPb2I7. A2PbI4 crystals exhibit green and red emission with the fastest PL decay time <1 ns, while A2MAPb2I7 crystals exhibit a high mass density of >3.0 g/cm3 and tunable smaller bandgaps <2.1 eV resulting from quantum and dielectric confinement. We observe that A2PbI4 and PEA2MAPb2I7 show emission under X- and γ-ray excitations. We further observe that some QW HOIP iodide scintillators exhibit shorter radiation absorption lengths (∼3 cm at 511 keV) and faster scintillation decay time components (∼0.5 ns) compared to those of QW HOIP bromide scintillators. Finally, we investigate the light yields of iodide-based QW HOIP crystals at 10 K (∼10 photons/keV), while at room temperature they still show pulse height spectra with light yields between 1 and 2 photons/keV, which is still >5 times lower than those for bromides. The lower light yields can be the drawbacks of iodide-based QW HOIP scintillators, but the promising high mass density and decay time results of our study can provide the right pathway for further improvements toward fast-timing applications. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Md Abdul Kuddus Sheikh Kowal, Dominik Muhammad Haris Mahyuddin Cala', Roberto Auffray, Etiennette Witkowski, Marcin Eugeniusz Makowski, Michal Drozdowski, Winicjusz Wang, Hong Dujardin, Christophe Cortecchia, Daniele Muhammad Danang Birowosuto |
| format |
Article |
| author |
Md Abdul Kuddus Sheikh Kowal, Dominik Muhammad Haris Mahyuddin Cala', Roberto Auffray, Etiennette Witkowski, Marcin Eugeniusz Makowski, Michal Drozdowski, Winicjusz Wang, Hong Dujardin, Christophe Cortecchia, Daniele Muhammad Danang Birowosuto |
| author_sort |
Md Abdul Kuddus Sheikh |
| title |
A2Bn-1PbnI3n+1 (A = BA, PEA; B = MA; n = 1, 2): engineering quantum-well crystals for high mass density and fast scintillators |
| title_short |
A2Bn-1PbnI3n+1 (A = BA, PEA; B = MA; n = 1, 2): engineering quantum-well crystals for high mass density and fast scintillators |
| title_full |
A2Bn-1PbnI3n+1 (A = BA, PEA; B = MA; n = 1, 2): engineering quantum-well crystals for high mass density and fast scintillators |
| title_fullStr |
A2Bn-1PbnI3n+1 (A = BA, PEA; B = MA; n = 1, 2): engineering quantum-well crystals for high mass density and fast scintillators |
| title_full_unstemmed |
A2Bn-1PbnI3n+1 (A = BA, PEA; B = MA; n = 1, 2): engineering quantum-well crystals for high mass density and fast scintillators |
| title_sort |
a2bn-1pbni3n+1 (a = ba, pea; b = ma; n = 1, 2): engineering quantum-well crystals for high mass density and fast scintillators |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/175489 |
| _version_ |
1814047056243720192 |