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Heavy chalcogenide-transition metal clusters as coordination polymer nodes

Jiaze Xie, Lei Wang, John S. Anderson

2020Chemical Science71 citationsDOIOpen Access PDF

Abstract

While metal-oxygen clusters are widely used as secondary building units in the construction of coordination polymers or metal-organic frameworks, multimetallic nodes with heavier chalcogenide atoms (S, Se, and Te) are comparatively untapped. The lower electronegativity of heavy chalcogenides means that transition metal clusters of these elements generally exhibit enhanced coupling, delocalization, and redox-flexibility. Leveraging these features in coordination polymers provides these materials with extraordinary properties in catalysis, conductivity, magnetism, and photoactivity. In this perspective, we summarize common transition metal heavy chalcogenide building blocks including polynuclear metal nodes with organothiolate/selenolate or anionic heavy chalcogenide atoms. Based on recent discoveries, we also outline potential challenges and opportunities for applications in this field.

Topics & Concepts

ChalcogenideDelocalized electronElectronegativityTransition metalMaterials scienceCoordination numberNanotechnologyMetalCoordination polymerMagnetismBismuthChemical physicsFlexibility (engineering)PolymerCoordination complexCatalysisChemistryCondensed matter physicsMetallurgyPhysicsOrganic chemistryStatisticsMathematicsComposite materialIonMetal-Organic Frameworks: Synthesis and ApplicationsNanocluster Synthesis and Applications2D Materials and Applications
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