Facile and Rapid Room-Temperature Electrosynthesis and Controlled Surface Growth of Fe-MIL-101 and Fe-MIL-101-NH<sub>2</sub>
Wenbo Wu, Gerald E. Decker, Anna E. Weaver, Amanda I. Arnoff, Eric D. Bloch, Joel Rosenthal
Abstract
) in a solution containing 2,6-lutidine and terephthalic acid affords highly crystalline Fe-MIL-101. Controlled potential electrolysis with carboxy-functionalized ITO affords Fe-MIL-101 grown directly on the surface of modified electrodes. The methods we report herein represent the first general routes that employ interfacial electrochemistry to alter the oxidation state of metal ions dissolved in solution to directly trigger MOF formation. The reported method is functional group tolerant and will be broadly applicable to the bulk synthesis or surface growth of a range of MOFs based on metal ions with accessible oxidation states.
Topics & Concepts
ElectrosynthesisElectrochemistryDissolutionMetal-organic frameworkRedoxInorganic chemistryMetalAnodeElectrolysisChemistryTerephthalic acidMetal ions in aqueous solutionElectrodeMaterials scienceCombinatorial chemistryNanotechnologyAdsorptionOrganic chemistryPhysical chemistryElectrolytePolyesterMetal-Organic Frameworks: Synthesis and ApplicationsCorrosion Behavior and InhibitionAdvanced Photocatalysis Techniques