Publication | Open Access
Control of interpenetration of copper-based MOFs on supported surfaces by electrochemical synthesis
37
Citations
24
References
2016
Year
Bulk PowderEngineeringChemistryChemical EngineeringCopper-based Metal–organic FrameworkOrganic ElectrochemistryMetal-organic PolyhedronHybrid MaterialsElectrochemical InterfaceElectrode Reaction MechanismMaterials ScienceInorganic ChemistrySurface ElectrochemistryCovalent Bonded FrameworkElectrochemical ProcessMetal-organic FrameworksElectrochemistrySurface ScienceCopper-based MofsElectrochemical SynthesisAdsorption PropertiesElectrochemical Surface Science
A study of a copper-based metal–organic framework (MOF) synthesized by an electrochemical route is presented. Morphological and adsorption properties of the MOF synthesized as bulk powder and on supported copper surfaces were investigated. Differences in these properties and structural refinement studies indicate that when 4,4′,4′′-s-triazine-2,4,6-triyl-tribenzoic acid (H3TATB) is used as linker interpenetration can be prevented when the structure is grown on a surface.
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