Te4+-doped Cs2SnCl6 scintillator for flexible and efficient X-ray imaging screens
The rising demand for X-ray imaging technologies in medical radiography and nondestructive detection calls for novel scintillator materials, particularly those which are cost effective, high resolution, and have a low detection limit. Here we report investigations into the scintillating behavior of...
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| Published in | Journal of materials chemistry. C, Materials for optical and electronic devices Vol. 12; no. 6; pp. 2241 - 2246 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Cambridge
Royal Society of Chemistry
08.02.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2050-7526 2050-7534 |
| DOI | 10.1039/d3tc03818a |
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| Abstract | The rising demand for X-ray imaging technologies in medical radiography and nondestructive detection calls for novel scintillator materials, particularly those which are cost effective, high resolution, and have a low detection limit. Here we report investigations into the scintillating behavior of vacancy-ordered double perovskite Cs2SnCl6 fabricated via a simple co-precipitation process. By introducing Te4+ doping, an intense yellow emission was achieved upon X-ray irradiation. Combined with PDMS, flexible imaging screens with tunable size and thickness could be obtained, and demonstrated a high resolution of 20 LP mm−1, a low detection limit of 132 nGyair s−1, and high X-ray radiation endurance. Its excellent flexibility enables clear and less vignetted X-ray imaging for nonplanar subjects. The findings open a new avenue towards versatile applications for Sn-based vacancy-ordered double perovskites for other than visible and near-infrared emissions. |
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| AbstractList | The rising demand for X-ray imaging technologies in medical radiography and nondestructive detection calls for novel scintillator materials, particularly those which are cost effective, high resolution, and have a low detection limit. Here we report investigations into the scintillating behavior of vacancy-ordered double perovskite Cs2SnCl6 fabricated via a simple co-precipitation process. By introducing Te4+ doping, an intense yellow emission was achieved upon X-ray irradiation. Combined with PDMS, flexible imaging screens with tunable size and thickness could be obtained, and demonstrated a high resolution of 20 LP mm−1, a low detection limit of 132 nGyair s−1, and high X-ray radiation endurance. Its excellent flexibility enables clear and less vignetted X-ray imaging for nonplanar subjects. The findings open a new avenue towards versatile applications for Sn-based vacancy-ordered double perovskites for other than visible and near-infrared emissions. |
| Author | Du, Tianyun Wu, Chuanli Han, Xiuxun Qing, Xiaofei Wang, Mengyao |
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| Title | Te4+-doped Cs2SnCl6 scintillator for flexible and efficient X-ray imaging screens |
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