化学
铀
表面改性
吸附
人体净化
铀酰
螯合作用
金属有机骨架
环境化学
核化学
放射化学
无机化学
有机化学
废物管理
物理化学
冶金
离子
工程类
材料科学
作者
Mengping Chen,Lang Lang,Lei Chen,Xiaomei Wang,Cen Shi,Qiwen Sun,Yigong Xu,Juan Diwu,Shuao Wang
标识
DOI:10.1002/cjoc.202200206
摘要
Comprehensive Summary The environmental contamination of uranium will occur in scenarios such as nuclear accidents and leakage from nuclear waste storage sites, which eventually leads to the internal uranium exposure of people, causing consequential injuries of renal failure, osteosarcoma, etc . The development of uranyl specific chelating agents that could sequester uranium in vivo is in urgent need and is important for the safe and efficient development of nuclear industry. Metal organic frameworks (MOFs) already serve as efficient uranium depletion materials in solutions of a wide range of pH and ionic strength for nuclear fuel recycling, uranium extraction from seawater, as well as environmental decontamination. Herein, a chromium‐based nano‐metal organic framework (nano‐MOF) functionalized interiorly with 3,2‐HOPO ligands, MIL‐101‐HOPO, is rationally synthesized. In vitro adsorption experiments show that MIL‐101‐HOPO exhibits high adsorption selectivity and fast adsorption kinetics for uranyl. The results of in vivo uranyl decorporation assays reveal that MIL‐101‐HOPO with the decoration of HOPO ligands on the interior wall exhibits significantly increased uranyl removal ratio in kidneys comparing to the pristine nMOFs, and is more effective than the clinically used ZnNa 3 ‐DTPA. All those results corroborate the interior functionalization of MOFs as an efficient strategy to develop promising uranyl decorporation agents.
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