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Conductive metal-organic frameworks with wheel-shaped metallomacrocycle subunits as high-performance supercapacitor electrodes

Yong Yan, Xihao Lin, Jing‐Yuan Ge, Xin‐Hua Li

2023Chemical Engineering Journal32 citationsDOIOpen Access PDF

Abstract

The poor conductivities of metal–organic frameworks (MOFs) hinder their direct application as supercapacitor electrode materials. Here, a conductive MOF, MWM-1 (Co/2Ni) ([Co(III)3Ni(III)3Co(II)2Ni(II)2(mba)12(Hdtba)2(H2O)8]n, Hdtba = 2,2́-dithiodibenzoic acid monovalent anion, mba = 2-mercaptobenzoic acid divalent anion), with wheel-shaped metallomacrocyclic subunits, is synthesised using inexpensive H2mba as the ligand. Unlike that of two-dimensional conductive MOFs produced using expensive conductive ligands, the conductivity of MWM-1 (Co/2Ni) originates from the partial replacement of Co(III)/Co(II) ions with Ni(III)/Ni(II) ions in the original molecular metallomacrocyclic backbone. The single-crystal structure of MWM-1 (Co/2Ni) reveals that Ni incorporation does not alter the overall molecular structure of the non-conductive MWM-1 (Co) ([Co(III)3Co(II)2(mba)6(Hdtba)(H2O)4]n) precursor. Studies on the magnetic and conductive properties of MWM-1 (Co/2Ni) and MWM-1 (Co) indicate that Ni doping of MWM-1 (Co) significantly improves its conductivity and, thus, its performance as an electrode material for supercapacitors. This study provides a novel strategy for constructing conductive MOFs, advancing the applicability of MOF materials in energy storage.

Topics & Concepts

SupercapacitorMetal-organic frameworkElectrodeElectrical conductorConductivityInorganic chemistryMaterials scienceChemical engineeringMetal ions in aqueous solutionChemistryMetalNanotechnologyElectrochemistryPhysical chemistryComposite materialMetallurgyAdsorptionEngineeringMetal-Organic Frameworks: Synthesis and ApplicationsSupercapacitor Materials and FabricationCarbon dioxide utilization in catalysis
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