Cesium Lead Bromide (CsPbBr3) Thin‐Film‐Based Solid‐State Neutron Detector Developed by a Solution‐Free Sublimation Process

Leunam Fernandez-Izquierdo

Pontificia Universidad Católica de Chile

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Leunam Fernandez-Izquierdo

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The majority of solid-state radiation sensors are predominantly single crystals. However, for low-cost and large-area device applications, thin films are a better option. The first evidence of neutron detection using a Gallium Oxide/Cesium Lead Bromide (Ga2O3/CsPbBr3) solid-state diode enabled by an innovative close space sublimation (CSS) method that allows deposition of thick CsPbBr3 films is demonstrated. Furthermore, indirect neutron sensing is achieved using a B-10 layer for diodes biased at voltages as low as -5 V, showing the potential for low-power operation. The neutron response is enabled by the low leakage current (approximate to 10(-8) A mm(-2)), rectification of approximate to 10(4), capacitance as low as 15 pF, and fast response of the Ga2O3/CsPbBr3 diode. The superior performance of the CsPbBr3 is due to the phase purity, stoichiometry control, and large single-grain columnar growth of the films obtained by the CSS method.

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Autor	Leunam Fernandez-Izquierdo
Título	Cesium Lead Bromide (CsPbBr3) Thin‐Film‐Based Solid‐State Neutron Detector Developed by a Solution‐Free Sublimation Process
Fecha de publicación	2020
Resumen	The majority of solid-state radiation sensors are predominantly single crystals. However, for low-cost and large-area device applications, thin films are a better option. The first evidence of neutron detection using a Gallium Oxide/Cesium Lead Bromide (Ga2O3/CsPbBr3) solid-state diode enabled by an innovative close space sublimation (CSS) method that allows deposition of thick CsPbBr3 films is demonstrated. Furthermore, indirect neutron sensing is achieved using a B-10 layer for diodes biased at voltages as low as -5 V, showing the potential for low-power operation. The neutron response is enabled by the low leakage current (approximate to 10(-8) A mm(-2)), rectification of approximate to 10(4), capacitance as low as 15 pF, and fast response of the Ga2O3/CsPbBr3 diode. The superior performance of the CsPbBr3 is due to the phase purity, stoichiometry control, and large single-grain columnar growth of the films obtained by the CSS method.
Derechos	acceso restringido
DOI	10.1002/admt.202000534
Enlace	https://repositorio.uc.cl/handle/11534/69673
Id de publicación en WoS	WOS:000588148700001
Tema ODS	07 Affordable and clean energy
Tema ODS español	07 Energía asequible y no contaminante
Tipo de documento	artículo