Well isolated copper(II) pyrazine-bridged chains: synthesis and magneto-structural analysis of 2-halo-4-pyridone perchlorate complexes

Authors

Jeffrey C. Monroe, Clark University
Christopher P. Landee, Clark UniversityFollow
Mark M. Turnbull, Clark UniversityFollow
Jan L. Wikaira, University of Canterbury

Document Type

Article

Abstract

Two new coordination polymers, [Cu(pz)(L)₂(H₂O)₂](ClO₄)₂ (L = 2-Cl- (1) or 2-Br-4-pyridone (2); pz = pyrazine), have been synthesized and characterized by X-ray diffraction, EPR and variable temperature magnetic measurements. Both compounds crystallize as well isolated pyrazine-bridged chains with the heterocyclic ligands in the pyridone tautomer and coordinated via the oxygen atom. The Cu ions possess Jahn-Teller elongated octahedral geometries with the Jahn-Teller axis along the Cu-O axis. The water molecules in 2 are inequivalent with one molecule semi-coordinate (d_Cu…O = 3.225(6) Å) at an occupancy of 0.72. Both compounds exhibited axial powder EPR spectra, as expected. Variable temperature magnetic measurements are well fit by the uniform chain Heisenberg antiferromagnetic model with J = −10.74(4) K (1) or = −10.64(2) K (2). Comparison with the known 3-halo-4-pyridone compounds suggests an inverse relationship between the Cu-pz-Cu distance and the strength of the magnetic exchange.

Publication Title

Journal of Coordination Chemistry

Publication Date

2024

ISSN

0095-8972

DOI

10.1080/00958972.2024.2344711

Keywords

Cu(II), magnetism, pyridone, X-ray structure

Repository Citation

Monroe, Jeffrey C.; Landee, Christopher P.; Turnbull, Mark M.; and Wikaira, Jan L., "Well isolated copper(II) pyrazine-bridged chains: synthesis and magneto-structural analysis of 2-halo-4-pyridone perchlorate complexes" (2024). Chemistry. 37.
https://commons.clarku.edu/chemistry/37