Chao-Ying Gao scite author profile

Solvothermal reactions with different solvents produced two iron trimesates [Fe2(H2O)2(BTC)4/3]Cl x 4.5(DMF) (1) and [Fe4Cl(BTC)8/3]Cl2 x H2O x 2.5(DEF) (2) (BTC = 1,3,5-benzenetricarboxylate, DMF = N,N'-dimethylformamide, DEF = N,N'-diethylformamide). The framework of 1 is a (3,4)-connected net constructed from mixed-valence paddlewheel Fe2(II, III) units and BTC linkers, while the framework of 2 is a (3,8)-connected net built from mixed-valence square-planar Fe4(III, III, III, II) units and BTC linkers. The large volume inside the framework of 1 (or 2) is occupied by disordered Cl- anions and guest DMF (or DEF) molecules. The mixed-valence character of the frameworks of 1 and 2 was confirmed by Mössbauer spectroscopy studies. The active electronic property of iron cations may be the origin of the variability of the iron-organic frameworks, which are readily affected by some synthetic factors, such as solvents. Magnetic studies reveal that there are antiferromagnetic exchange interactions among the Fe atoms in 1 and 2. Ion-exchange studies for 1 show that the Cl- anions inside the framework of 1 can be exchanged by CNS- anions.

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Fe₃O₄@ZIF-8: a magnetic nanocomposite for highly efficient UO₂²⁺ adsorption and selective UO₂²⁺/Ln³⁺ separation

Xue

et al. 2017

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Design and construction of a microporous metal–organic framework based on the pillared-layer motif

et al. 2007

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A microporous Cu-MOF with optimized open metal sites and pore spaces for high gas storage and active chemical fixation of CO₂

et al. 2016

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An ultrastable zirconium-phosphonate framework as bifunctional catalyst for highly active CO₂chemical transformation

Gao

Tian

et al. 2017

Chem. Commun.

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A zirconium-phosphonate network, as a bifunctional catalyst for carbon dioxide (CO)/epoxide coupling reaction, exhibits very high activity that is superior to most documented metal-organic framework (MOF)-based catalysts. Furthermore, it possesses extraordinary tolerance to extremely harsh conditions, such as aqua regia. This paper describes the use of metal phosphonate as a new MOF applied to CO transformation.

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Chao-Ying Gao

Mixed-Valence Iron(II, III) Trimesates with Open Frameworks Modulated by Solvents

Fe₃O₄@ZIF-8: a magnetic nanocomposite for highly efficient UO₂²⁺ adsorption and selective UO₂²⁺/Ln³⁺ separation

Design and construction of a microporous metal–organic framework based on the pillared-layer motif

A microporous Cu-MOF with optimized open metal sites and pore spaces for high gas storage and active chemical fixation of CO₂

An ultrastable zirconium-phosphonate framework as bifunctional catalyst for highly active CO₂chemical transformation

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Chao-Ying Gao

Mixed-Valence Iron(II, III) Trimesates with Open Frameworks Modulated by Solvents

Fe3O4@ZIF-8: a magnetic nanocomposite for highly efficient UO22+ adsorption and selective UO22+/Ln3+ separation

Design and construction of a microporous metal–organic framework based on the pillared-layer motif

A microporous Cu-MOF with optimized open metal sites and pore spaces for high gas storage and active chemical fixation of CO2

An ultrastable zirconium-phosphonate framework as bifunctional catalyst for highly active CO2chemical transformation

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Fe₃O₄@ZIF-8: a magnetic nanocomposite for highly efficient UO₂²⁺ adsorption and selective UO₂²⁺/Ln³⁺ separation

A microporous Cu-MOF with optimized open metal sites and pore spaces for high gas storage and active chemical fixation of CO₂

An ultrastable zirconium-phosphonate framework as bifunctional catalyst for highly active CO₂chemical transformation