Modulating Structural and Electronic Properties of Rare Archimedean and Johnson-Type Mn Cages

Loading...
Thumbnail Image

Date

Journal Title

Journal ISSN

Volume Title

Publisher

Access

openAccess

Embargo end date

Citation

Tandon, S. and Steuber, F.W. and Kathalikkattil, A.C. and Venkatesan, M. and Watson, G.W. and Schmitt, W., Modulating Structural and Electronic Properties of Rare Archimedean and Johnson-Type Mn Cages, Inorganic Chemistry, 2021

Abstract

High-nuclearity Mn complexes have attracted significant scientific attention due to their fascinating magnetic properties and their relevance to bioinorganic systems and catalysis. In this work, we demonstrate how the strong binding characteristics of phosphonate ligands can be coupled with sterically hindered carboxylate groups to influence the symmetry of Mn coordination clusters. We describe the structure of two high-nuclearity Mn coordination cages, {Mn12} and {Mn15}, synthesized using this approach. These cages are structurally related to the truncated tetrahedral geometry and adopt rare topological features of Archimedean and Johnson-type solids. Their structural attributes distinctively influence their magnetic properties and electrocatalytic H2O oxidation characteristics.

Description

PUBLISHED
cited By 0

Endorsement

Review

Supplemented By

Referenced By

Keywords

Type of material: Journal Article