2023
DOI: 10.1002/adfm.202301002
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Lone‐pair Electrons Enhancement Effect: SnTe3O8 Hard X‐ray Detection with Stable High‐temperature Sensitivity and Ultralow Detection Limit

Abstract: Sensitivity and detection limit of X‐ray detectors are crucial for security checks, medical diagnoses, and industrial inspections. In this study, it is reported that introducing some cations containing lone‐pair electrons is beneficial for enhancing the Compton scattering effect and thus improving X‐ray detection performance. As an example, SnTe3O8 is selected and grown as a novel high‐temperature X‐ray detection crystal. Because of the high resistivity of 2 × 1014 Ω cm and high mobility lifetime product of 3.… Show more

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Cited by 7 publications
(1 citation statement)
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“…X-ray detection has been widely used in the fields of space exploration, medical X-ray imaging, and scientific research. 1–6 Generally, five performance metrics are required for an outstanding X-ray detector: 1,7–12 (1) a high sensitivity for generating sufficiently large electronic signals for image acquisition at a low dose rate; 13–15 (2) a low detection limit for reducing the human body damage in medical CT; 14,16–18 (3) a low dark current noise for enhancing the signal current along with increasing the sensitivity and decreasing the lowest detection limit; 4,7,9,16,19 (4) a stable dark current baseline without drifting for long time work; 13,15 and (5) a high detective quantum efficiency and high modulation transfer function for high-resolution X-ray imaging. 20–22 Therefore, the detection semiconductor materials should possess a high mobility lifetime product ( μτ > 10 −4 cm 2 V −1 ), a high X-ray absorption coefficient, a high resistivity (about 10 9 –10 12 Ω cm), and a negligible polarization or ion migration to meet the demands of the detectors.…”
Section: Introductionmentioning
confidence: 99%
“…X-ray detection has been widely used in the fields of space exploration, medical X-ray imaging, and scientific research. 1–6 Generally, five performance metrics are required for an outstanding X-ray detector: 1,7–12 (1) a high sensitivity for generating sufficiently large electronic signals for image acquisition at a low dose rate; 13–15 (2) a low detection limit for reducing the human body damage in medical CT; 14,16–18 (3) a low dark current noise for enhancing the signal current along with increasing the sensitivity and decreasing the lowest detection limit; 4,7,9,16,19 (4) a stable dark current baseline without drifting for long time work; 13,15 and (5) a high detective quantum efficiency and high modulation transfer function for high-resolution X-ray imaging. 20–22 Therefore, the detection semiconductor materials should possess a high mobility lifetime product ( μτ > 10 −4 cm 2 V −1 ), a high X-ray absorption coefficient, a high resistivity (about 10 9 –10 12 Ω cm), and a negligible polarization or ion migration to meet the demands of the detectors.…”
Section: Introductionmentioning
confidence: 99%