基于抗辐射钍镍[Th Ni]纳米笼的金属有机框架对ReO和CO转化的高摄取率

High Uptake of ReO and CO Conversion by a Radiation-Resistant Thorium-Nickle [Th Ni ] Nanocage-Based Metal-Organic Framework.

作者信息

Xu Hang, Cao Chun-Shuai, Hu Han-Shi, Wang Shi-Bin, Liu Jin-Cheng, Cheng Peng, Kaltsoyannis Nikolas, Li Jun, Zhao Bin

机构信息

Department of Chemistry, Key Laboratory of Advanced Energy Material Chemistry, Nankai University, Tianjin, 300071, China.

Department of Chemistry and Key Laboratory of Organic Optoelectronics & Molecular Engineering of Ministry of Education, Tsinghua University, Beijing, 100084, China.

出版信息

Angew Chem Int Ed Engl. 2019 Apr 23;58(18):6022-6027. doi: 10.1002/anie.201901786. Epub 2019 Mar 28.

DOI:10.1002/anie.201901786

PMID:30793462

Abstract

Assembled from [Th Ni ] nanocages, the first transition-metal (TM)-thorium metal-organic framework (MOF, 1) has been synthesized and structurally characterized. 1 exhibits high solvent and acid/base stability, and resistance to 400 kGy β irradiation. Notably, 1 captures ReO (an analogue of radioactive TcO , a key species in nuclear wastes) with a maximum capacity of 807 mg g , falling among the largest values known to date. Furthermore, 1 can enrich methylene blue (MB) and can also serve as an effective and recyclable catalyst for CO fixation with epoxides; there is no significant loss of catalytic activity after 10 cycles. Theoretical studies with nucleus-independent chemical shifts and natural bond orbital analysis reveal that the [Th O ] clusters in 1 have a unique stable electronic structure with (d-p)π aromaticity, partially rationalising 1's stability.

摘要

由[Th Ni ]纳米笼组装而成的首个过渡金属（TM）-钍金属有机框架（MOF，1）已被合成并进行了结构表征。1表现出高溶剂稳定性、酸碱稳定性以及对400 kGy β辐射的抗性。值得注意的是，1对ReO （放射性TcO 的类似物，核废料中的关键物质）的捕获容量最大可达807 mg g ，属于迄今为止已知的最大值之一。此外，1能够富集亚甲基蓝（MB），还可作为一种有效且可循环利用的催化剂用于环氧乙烷的CO固定反应；经过10次循环后催化活性无显著损失。通过核独立化学位移和自然键轨道分析进行的理论研究表明，1中的[Th O ]簇具有独特的稳定电子结构，具有（d-p）π芳香性，这部分解释了1的稳定性。

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基于抗辐射钍镍[Th Ni]纳米笼的金属有机框架对ReO和CO转化的高摄取率

High Uptake of ReO and CO Conversion by a Radiation-Resistant Thorium-Nickle [Th Ni ] Nanocage-Based Metal-Organic Framework.

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