Cu(I)Cu(II)BTC, a microporous mixed-valence MOF via reduction of HKUST-1

Ahmed Adham; Robertson Craig M.; Steiner Alexander; Whittles Thomas; Ho Alexandra; Dhanak Vinod; Zhang Haifei

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Cu(I)Cu(II)BTC, a microporous mixed-valence MOF via reduction of HKUST-1

机译：Cu（I）Cu（II）BTC，通过减少HKust-1的微孔混合价MOF

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Metal-organic frameworks (MOFs) are typically crystalline microporous materials with metal ions of usually one oxidation state (although mixed-valence MOFs have been reported) and one type of coordination structure. Here, a microporous mixed-valence Cu(I,II)-MOF featuring a unique network of distinct Cu(I) and Cu(II) coordination sites is prepared by solvothermal reduction of HKUST-1. Like HKUST-1, this compound is assembled solely from Cu ions and benzene 1,3,5-tricarboxylate (BTC) ligands. The new MOF exhibits dual micropore size distribution and shows superior water stability compared to HKUST-1.

机译：金属 - 有机框架（MOF）通常是具有通常一种氧化状态的金属离子的晶体微孔材料（尽管已经报道了混合价MOF）和一种类型的配位结构。这里，通过HKUST-1的溶剂还原制备具有独特的Cu（I）和Cu（II）和Cu（II）配位部位的独特网络的微孔混合价Cu（I，II）-MOF。与HKUST-1一样，该化合物仅由Cu离子和苯1,3,5-三羧酸盐（BTC）配体组装。新的MOF表现出双微孔尺寸分布，与HKUST-1相比，卓越的水稳定性。

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来源
《RSC Advances》 |2016年第11期|共4页
作者
Ahmed Adham; Robertson Craig M.; Steiner Alexander; Whittles Thomas; Ho Alexandra; Dhanak Vinod; Zhang Haifei;
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作者单位

Univ Liverpool Dept Chem Oxford St Liverpool L69 7ZD Merseyside England;

Univ Liverpool Dept Chem Oxford St Liverpool L69 7ZD Merseyside England;

Univ Liverpool Dept Chem Oxford St Liverpool L69 7ZD Merseyside England;

Univ Liverpool Stephenson Inst Renewable Energy Chadwick Bldg Peach St Liverpool L69 7ZF Merseyside England;

Univ Liverpool Dept Chem Oxford St Liverpool L69 7ZD Merseyside England;

Univ Liverpool Stephenson Inst Renewable Energy Chadwick Bldg Peach St Liverpool L69 7ZF Merseyside England;

Univ Liverpool Dept Chem Oxford St Liverpool L69 7ZD Merseyside England;

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正文语种 eng
中图分类化学;
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2. Cu(I)Cu(II)BTC, a microporous mixed-valence MOF via reduction of HKUST-1 [J] . Ahmed Adham, Robertson Craig M., Steiner Alexander, RSC Advances . 2016,第11期

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Cu(I)Cu(II)BTC, a microporous mixed-valence MOF via reduction of HKUST-1

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