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Four Lanthanide(III) Metal–Organic Frameworks Fabricated by Bithiophene Dicarboxylate for High Inherent Proton Conduction

Yu-Ling Hong, Shuai-Wu Zuo, Haoyu Du, Zhi‐Qiang Shi, Hailiang Hu, Gang Li

2024ACS Applied Materials & Interfaces28 citationsDOI

Abstract

Currently, it is still a challenge to directly achieve highly stable metal–organic frameworks (MOFs) with superior proton conductivity solely through the exquisite design of ligands and the attentive selection of metal nodes. Inspired by this, we are intrigued by a multifunctional dicarboxylate ligand including dithiophene groups, 3,4-dimethylthieno[2,3- b ]thiophene-2,5-dicarboxylic acid (H 2 DTD), and lanthanide ions with distinct coordination topologies. Successfully, four isostructural three-dimensional lanthanide(III)-based MOFs, [Ln 2 (DTD) 3 (DEF) 4 ]·DEF·6H 2 O [Ln III = Tb III ( Tb-MOF ), Eu III ( Eu-MOF ), Sm III ( Sm-MOF ), and Dy III ( Dy-MOF )], were solvothermally prepared, in which the effective proton transport will be provided by the coordinated or free solvent molecules, the crystalline water molecules, and the framework components, as well as a large number of highly electronegative S and O atoms. As expected, the four Ln-MOFs demonstrated the highest proton conductivities (σ) being 0.54 × 10 –3, 3.75 × 10 –3, 1.28 × 10 –3, and 1.92 × 10 –3 S·cm –1 for the four MOFs, respectively, at 100 °C/98% relative humidity (RH). Excitingly, Dy-MOF demonstrated an extraordinary ultrahigh σ of 1 × 10 –3 S·cm –1 at 30 °C/98% RH. Additionally, the plausible proton transport mechanisms were emphasized.

Topics & Concepts

LanthanideIsostructuralMaterials scienceMetal-organic frameworkMoleculeLigand (biochemistry)ProtonConductivityCrystallographyMetalSolventPhysical chemistryIonCrystal structureOrganic chemistryChemistryMetallurgyAdsorptionQuantum mechanicsBiochemistryPhysicsReceptorMetal-Organic Frameworks: Synthesis and ApplicationsMagnetism in coordination complexesOrganic and Molecular Conductors Research