Enhanced Storage Capacity via Anion Substitution for Advanced Delayed X-ray Detection.
Haozhe LiuLongchao GuoZhenzhen CuiGuoqiang ZengLan LuXuanyu ZhuSongcheng PengYang YueMao DengJian-Bei QiuJianbei QiuFeng ZhaoXue YuTing WangPublished in: Nano letters (2024)
X-ray radiation information storage, characterized by its ability to detect radiation with delayed readings, shows great promise in enabling reliable and readily accessible X-ray imaging and dosimetry in situations where conventional detectors may not be feasible. However, the lack of specific strategies to enhance the memory capability dramatically hampers its further development. Here, we present an effective anion substitution strategy to enhance the storage capability of NaLuF 4 :Tb 3+ nanocrystals attributed to the increased concentration of trapping centers under X-ray irradiation. The stored radiation information can be read out as optical brightness via thermal, 980 nm laser, or mechanical stimulation, avoiding real-time measurement under ionizing radiation. Moreover, the radiation information can be maintained for more than 13 days, and the imaging resolution reaches 14.3 lp mm -1 . These results demonstrate that anion substitution methods can effectively achieve high storage capability and broaden the application scope of X-ray information storage.