Hybrid halide perovskite neutron detectors

Abstract: Interest in fast and easy detection of high-energy radiation (x-, γ-rays and neutrons) is closely related to numerous practical applications ranging from biomedicine and industry to homeland security issues. In this regard, crystals of hybrid halide perovskite have proven to be excellent detectors of x- and γ-rays, offering exceptionally high sensitivities in parallel to the ease of design and handling. Here, we demonstrate that by assembling a methylammonium lead tri-bromide perovskite single crystal (CH3NH3P… Show more

“…Therefore, it is important to find the optimized device thickness for balanced neutron detection efficiency and γ-ray sensitivity. Indirect-conversion detectors based on MAPbBr 3 were also reported by Andričević et al 115 The detectors employed a simple device structure of MAPbBr 3 single crystals with graphite spray electrodes. A Gd foil or a Gd 2 O 3 pellet was used for neutron conversion.…”

“…Several reports have demonstrated neutron detectors based on halide perovskites, including both scintillators and indirect-conversion solid-state detectors. [67][68][69][70]106,115,116 Since the detectors for thermal and fast neutrons require different absorbing materials, they will be discussed separately below.…”

Halide perovskites and perovskite related materials for particle radiation detection

“…Therefore, it is important to find the optimized device thickness for balanced neutron detection efficiency and γ-ray sensitivity. Indirect-conversion detectors based on MAPbBr 3 were also reported by Andričević et al 115 The detectors employed a simple device structure of MAPbBr 3 single crystals with graphite spray electrodes. A Gd foil or a Gd 2 O 3 pellet was used for neutron conversion.…”

“…Several reports have demonstrated neutron detectors based on halide perovskites, including both scintillators and indirect-conversion solid-state detectors. [67][68][69][70]106,115,116 Since the detectors for thermal and fast neutrons require different absorbing materials, they will be discussed separately below.…”

Halide perovskites and perovskite related materials for particle radiation detection

“…Several methylammonium (MA)-based MHP variants have already shown spectroscopic capabilities, such as MAPbI 3 and Cl compensated MAPbBr 3 , which demonstrated resolutions of 6.8% at 122 keV and 6.5% at 662 keV, respectively. ,, Single-crystal (SC) methylammonium lead tribromide (CH 3 NH 3 PbBr 3 , MAPbBr 3 , or MAPB) has also demonstrated fast neutron sensing capability via elastic scattering from the 50% atomic fraction of hydrogen . Neutron sensing was also achieved to some degree through the incorporation of gadolinium oxide pellets into the MAPB as well as the use of boron conversion layers and gadolinium oxide heterojunctions. , Furthermore, studies in recent years already show that stoichiometric substitutions in the MAPB SC growths are achievable to produce functional devices for radiation sensing. ,,, While previous anion and cation substitutions were intended to increase device stability and improve electronic properties, no publications have yet reported on incorporating thermal neutron-sensitive elements into the MHP structure for dual γ/thermal neutron sensing.…”

“…12 Neutron sensing was also achieved to some degree through the incorporation of gadolinium oxide pellets into the MAPB as well as the use of boron conversion layers and gadolinium oxide heterojunctions. 8,18 Furthermore, studies in recent years already show that stoichiometric substitutions in the MAPB SC growths are achievable to produce functional devices for radiation sensing. 14,16,19,20 While previous anion and cation substitutions were intended to increase device stability and improve electronic properties, no publications have yet reported on incorporating thermal neutron-sensitive elements into the MHP structure for dual γ/thermal neutron sensing.…”

Lithium Chloride-Substituted Methylammonium Lead Tribromide Perovskites for Dual γ/Neutron Sensing

“…Hybrid halide perovskite-based radiation detectors have shown great improvement in recent years and their field of application has quickly widened from X-ray and gamma detection to α particle detection and recently to neutron detection . In the case of neutrons, there is a particular interest in the detection of thermal neutrons, as those are broadly used in neutron scattering applications, nuclear reactors, medical practice, etc.…”

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