Litcius/Paper detail

Self-Assembly of a Rare High Spin FeII/PdII Tetradecanuclear Cubic Cage Constructed via the Metalloligand Approach

Hyunsung Min, Alexander R. Craze, Takahiro Taira, Matthew J. Wallis, Mohan Bhadbhade, Ruoming Tian, Daniel J. Fanna, Richard Wuhrer, Shinya Hayami, Jack K. Clegg, Christopher E. Marjo, Leonard F. Lindoy, Feng Li

2022Chemistry17 citationsDOIOpen Access PDF

Abstract

Polynuclear heterobimetallic coordination cages in which different metal cations are connected within a ligand scaffold are known to adopt a variety of polyhedral architectures, many of which display interesting functions. Within the extensive array of coordination cages incorporating Fe(II) centres reported so far, the majority contain low-spin (LS) Fe(II), with high-spin (HS) Fe(II) being less common. Herein, we present the synthesis and characterisation of a new tetradecanuclear heterobimetallic [Fe8Pd6L8](BF4]28 (1) cubic cage utilising the metalloligand approach. Use of the tripodal tris-imidazolimine derivative (2) permitted the formation of the tripodal HS Fe(II) metalloligand [FeL](BF4)2·CH3OH (3) that was subsequently used to form the coordination cage 1. Magnetic and structural analyses gave insight into the manner in which the HS environment of the metalloligand was transferred into the cage architecture along with the structural changes that accompanied its occupancy of the eight corners of the discrete cubic structure.

Topics & Concepts

CageChemistryCrystallographyTripodal ligandLigand (biochemistry)Crystal structureCubic crystal systemStereochemistryReceptorCombinatoricsMathematicsBiochemistryMagnetism in coordination complexesSupramolecular Chemistry and ComplexesMetal-Organic Frameworks: Synthesis and Applications
Self-Assembly of a Rare High Spin FeII/PdII Tetradecanuclear Cubic Cage Constructed via the Metalloligand Approach | Litcius