Stepwise Synthesis of Metal–Organic Frameworks

Bosch, Mathieu; Yuan, Shuai; Rutledge, William

doi:10.1021/acs.accounts.6b00457

Cited by 269 publications

(137 citation statements)

References 36 publications

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“…[9,10] Several strategies however have been developed to prepare stable MOFs in aqueous solution. [9,10] Several strategies however have been developed to prepare stable MOFs in aqueous solution.…”

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confidence: 99%

Co (II) Boron Imidazolate Framework with Rigid Auxiliary Linkers for Stable Electrocatalytic Oxygen Evolution Reaction

et al. 2019

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Metal–organic frameworks (MOFs) have significant potential for practical application in catalysis. However, many MOFs are shown to be sensitive to aqueous solution. This severely limits application of MOFs in electrocatalytic operations for energy production and storage. Here, a Co (II) boron imidazolate framework CoB(im) 4 (ndc) 0.5 ( BIF‐91 , im = imidazolate, ndc = 2,6‐naphthalenedicarboxylate) that is rationally designed and successfully tested for electrocatalytic application in strong alkaline (pH ≈ 14) solution is reported. In such a BIF system, the inherent carboxylate species segment large channel spaces into multiple domains in which each single channel is filled with ndc ligands through the effect of zeolite channel confinement. These ligands, with strong C—H···π interaction, act as a rigid auxiliary linker to significantly enhance the structural stability of the BIF‐91 framework. Additionally, the π‐conjugated effect in BIF‐91 stabilizes dopant Fe (III) at the atomic scale to construct Fe‐immobilized BIF‐91 ( Fe@BIF‐91 ). Due to the synergistic effect between Fe (III) guest and Co (II) in the framework, the Fe@BIF‐91 acts as an active and stable electrocatalyst for the oxygen evolution reaction in alkaline solution.

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confidence: 99%

Co (II) Boron Imidazolate Framework with Rigid Auxiliary Linkers for Stable Electrocatalytic Oxygen Evolution Reaction

et al. 2019

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“…Metal‐organic frameworks (MOFs) are crystalline porous materials composed of metal ions and multidentate organic ligands. Many kinds of coordination frameworks and porous structures have been prepared with a variety of metal‐ligand combinations, which showed diverse applications including storage, separation, sensing, catalysts, and ion transport . In particular, two‐dimensional (2D) MOFs with good electrical conductivity have attracted much attention, where multidentate ligands having bidentate moieties such as o ‐semiquinone and dithiolene are bridged with metal ions in a square‐planar geometry .…”

Section: Figurementioning

confidence: 99%

Synthesis and Electric Properties of a Two‐Dimensional Metal‐Organic Framework Based on Phthalocyanine

Nagatomi

Yanai

Yamada

et al. 2018

Chemistry A European J

120

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Complexation of copper(II) 2,3,9,10,16,17,23,24-octahydroxy-29H,31H-phthalocyanine (CuPcOH) with copper(II) ions gives a two-dimensional (2D) metal-organic framework (MOF). This is the first report of a phthalocyanine-based MOF. This 2D MOF was obtained as a black powder and showed an electrical conductivity of 1.6×10 S cm at 80 °C. When this MOF is used as a cathode of lithium ion battery (LIB), large charge/discharge capacities of 151/128 mAh g were obtained. In addition, it showed a good stability during 200 charge/discharge cycles. The obtained LIB performance mainly originates from the electrically conductive and redox-active framework of the phthalocyanine-based 2D MOF and its hierarchical microporous/mesoporous structure.

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“…Metal–organic frameworks (MOFs) are built from various organic linkers and metal ions with well‐defined porous coordination networks . They have become an important class of heterogeneous catalysts because of their large surface area and tunable functionalized linkers . Many classic MOFs promote the formation of catalytic sites and provide size‐ shape‐ and even enantio‐selective supports for C‐C formations, oxidations, reductions and hydrogen evolutions.…”

Section: Introductionmentioning

confidence: 99%

UiO‐66 microcrystals catalyzed direct arylation of enol acetates and heteroarenes with aryl diazonium salts in water

Sun

Chen

Qian

et al. 2020

Applied Organom Chemis

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UiO‐66 is a classic Metal–organic framework (MOF) that constructed by zirconium cations and terephthalate with high chemical and thermal stability. Using pristine UiO‐66 nanocrystals as the catalysts, the carbon–carbon bond formation based on denitrogenative substitution of aryl diazonium salts has been achieved under mild condition. The C–H arylation of both enol acetates and heteroarenes could be performed in aqueous medium without other metal assistance. The UiO‐66 catalyst shows good water stability and reusability as well as impressive functional group tolerance.

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Stepwise Synthesis of Metal–Organic Frameworks

Cited by 269 publications

References 36 publications

Co (II) Boron Imidazolate Framework with Rigid Auxiliary Linkers for Stable Electrocatalytic Oxygen Evolution Reaction

Co (II) Boron Imidazolate Framework with Rigid Auxiliary Linkers for Stable Electrocatalytic Oxygen Evolution Reaction

Synthesis and Electric Properties of a Two‐Dimensional Metal‐Organic Framework Based on Phthalocyanine

UiO‐66 microcrystals catalyzed direct arylation of enol acetates and heteroarenes with aryl diazonium salts in water

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