Jeung Yoon Kim scite author profile

Open coordination sites (OCSs) in metal-organic frameworks (MOFs) often function as key factors in the potential applications of MOFs, such as gas separation, gas sorption, and catalysis. For these applications, the activation process to remove the solvent molecules coordinated at the OCSs is an essential step that must be performed prior to use of the MOFs. To date, the thermal method performed by applying heat and vacuum has been the only method for such activation. In this report, we demonstrate that methylene chloride (MC) itself can perform the activation role: this process can serve as an alternative "chemical route" for the activation that does not require applying heat. To the best of our knowledge, no previous study has demonstrated this function of MC, although MC has been popularly used in the pretreatment step prior to the thermal activation process. On the basis of a Raman study, we propose a plausible mechanism for the chemical activation, in which the function of MC is possibly due to its coordination with the Cu(2+) center and subsequent spontaneous decoordination. Using HKUST-1 film, we further demonstrate that this chemical activation route is highly suitable for activating large-area MOF films.

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A Metal–Organic Framework-Based Material for Electrochemical Sensing of Carbon Dioxide

Gassensmith

et al. 2014

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The free primary hydroxyl groups in the metal-organic framework of CDMOF-2, an extended cubic structure containing units of six γ-cyclodextrin tori linked together in cube-like fashion by rubidium ions, has been shown to react with gaseous CO2 to form alkyl carbonate functions. The dynamic covalent carbon-oxygen bond, associated with this chemisorption process, releases CO2 at low activation energies. As a result of this dynamic covalent chemistry going on inside a metal-organic framework, CO2 can be detected selectively in the atmosphere by electrochemical impedance spectroscopy. The "as-synthesized" CDMOF-2 which exhibits high proton conductivity in pore-filling methanolic media, displays a ∼550-fold decrease in its ionic conductivity on binding CO2. This fundamental property has been exploited to create a sensor capable of measuring CO2 concentrations quantitatively even in the presence of ambient oxygen.

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Anisotropic Li⁺ ion conductivity in a large single crystal of a Co(iii) coordination complex

Kim

Jeong

et al. 2017

Inorg. Chem. Front.

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A ruthenium complex as a single-component redox shuttle for electrochemical photovoltaics

et al. 2015

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A primitive version of a ruthenium complex [Ru(bpy)3(2+)] was employed for the first time as a new conceptual "single-component redox shuttle" for dye-sensitized solar cells. This single shuttle led to a large enhancement of the open-circuit photovoltage (VOC) to ∼940 mV relative to that of conventional iodine-based shuttle and greatly increased the efficiency of the solar-to-electric energy conversion at lower illumination levels by a factor of ca. 5.6.

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Jeung Yoon Kim

A Chemical Route to Activation of Open Metal Sites in the Copper-Based Metal–Organic Framework Materials HKUST-1 and Cu-MOF-2

A Metal–Organic Framework-Based Material for Electrochemical Sensing of Carbon Dioxide

Anisotropic Li⁺ ion conductivity in a large single crystal of a Co(iii) coordination complex

A ruthenium complex as a single-component redox shuttle for electrochemical photovoltaics

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Jeung Yoon Kim

A Chemical Route to Activation of Open Metal Sites in the Copper-Based Metal–Organic Framework Materials HKUST-1 and Cu-MOF-2

A Metal–Organic Framework-Based Material for Electrochemical Sensing of Carbon Dioxide

Anisotropic Li+ ion conductivity in a large single crystal of a Co(iii) coordination complex

A ruthenium complex as a single-component redox shuttle for electrochemical photovoltaics

Contact Info

Product

Resources

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Anisotropic Li⁺ ion conductivity in a large single crystal of a Co(iii) coordination complex