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Control of interpenetration of copper-based MOFs on supported surfaces by electrochemical synthesis

Journal Article (2016)
Author(s)

S. Sachdeva (TU Delft - OLD ChemE/Organic Materials and Interfaces)

A. Pustovarenko (TU Delft - ChemE/Catalysis Engineering)

Ernst J. R. Sudhölter (TU Delft - OLD ChemE/Organic Materials and Interfaces)

F. Kapteijn (TU Delft - ChemE/Catalysis Engineering)

Louis de Smet (TU Delft - OLD ChemE/Organic Materials and Interfaces)

Jorge Gascon Sabate (TU Delft - ChemE/Catalysis Engineering)

Research Group
OLD ChemE/Organic Materials and Interfaces
Copyright
© 2016 S. Sachdeva, Alexey Pustovarenko, Ernst J. R. Sudhölter, F. Kapteijn, L.C.P.M. de Smet, Jorge Gascon
DOI related publication
https://doi.org/10.1039/c5ce02462e
More Info
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Publication Year
2016
Language
English
Copyright
© 2016 S. Sachdeva, Alexey Pustovarenko, Ernst J. R. Sudhölter, F. Kapteijn, L.C.P.M. de Smet, Jorge Gascon
Research Group
OLD ChemE/Organic Materials and Interfaces
Pages (from-to)
4018-4022
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Abstract



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.



Graphical abstract: Control of interpenetration of copper-based MOFs on supported surfaces by electrochemical synthesis