Publication | Open Access
Direct grafting-from of PEDOT from a photoreactive Zr-based MOF – a novel route to electrically conductive composite materials
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Citations
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References
2019
Year
EngineeringOrganic ElectronicsMaterial InnovationOrganic ChemistryChemistryConducting PolymerChemical EngineeringMetal-organic PolyhedronPolymer ChemistryMaterials ScienceMaterials EngineeringElectroactive MaterialCovalent Bonded FrameworkPostsynthetic PotentialPrecursor EdotMetal-organic FrameworksOrganic Material ChemistryNanomaterialsOrganic-inorganic Hybrid MaterialDirect Grafting-fromMof SurfaceNanocompositeConductive Composite MaterialsFunctional MaterialsPhotoreactive Zr-based Mof
The postsynthetic potential of the two-dimensional metal-organic framework Zr-bzpdc-MOF which is based on the photoreactive molecule benzophenone-4,4'-dicarboxylic acid (H2bzpdc) is used here to selectively functionalize the MOF surface. We report the direct radical-induced oxidative grafting-from polymerization of the precursor EDOT on Zr-bzpdc-MOF, leading to an electrically conductive composite material and opening the road to a variety of applications.
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