Journal
ACS APPLIED MATERIALS & INTERFACES
Volume 13, Issue 13, Pages 15383-15390Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsami.1c00174
Keywords
hybrid halide perovskite; semiconductor radiation detectors; alpha-particle detection; charge transport; gamma-ray spectroscopy; energy resolution
Funding
- National Natural Science Foundation of China [U2032170, 51872228, 51802262]
- Natural Science Foundation of Shaanxi Province [2020JC-12]
- Natural Science Basic Research Plan in Shaanxi Province of China [2019ZDLGY04-07]
- University of Surrey
- Northwestern Polytechnical University
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Using an improved crystallization method, high resistivity and mobility FAPbBr(3) single crystals were successfully grown, demonstrating great potential as reliable radiation detectors at room temperature. Additionally, a detector was constructed that could resolve gamma peaks at 59.5 keV, achieving an energy resolution of 40.1% at 30 V by collecting hole signals.
Compared with the widely reported MAPbBr(3) single crystals, formamidinium-based (FA-based) hybrid perovskites FAPbBr(3) (FPB) with superior chemical and structure stability are expected to be more efficient and perform as more reliable radiation detectors at room temperature. Here, we employ an improved inverse temperature crystallization method to grow FPB bulk single crystals, where issues associated with the retrograde solubility behavior are resolved. A crystal growth phase diagram has been proposed, and accordingly, growth parameters are optimized to avoid the formation of NH4Pb2Br5 secondary phase. The resulting FPB crystals exhibit a high resistivity of 2.8 x 10(9) Omega.cm and high electron and hole mobility-lifetime products (mu tau) of 8.0 x 10(-4) and 1.1 x 10(-3) cm(2).V-1, respectively. Simultaneously, the electron and hole mobilities (mu) are evaluated to be 22.2 and 66.1 cm(2.)V(-1).s(-1), respectively, based on the time-of-flight technique. Furthermore, a Au/FPB SC/Au detector is constructed that demonstrates a resolvable gamma peak from 59.5 keV Am-241 gamma-rays at room temperature for the first time. An energy resolution of 40.1% is obtained at 30 V by collecting the hole signals. These results demonstrate the great potential of FAPbBr(3) as a hybrid material for ?-ray spectroscopy and imaging.
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