Enhancing easy-plane anisotropy in bespoke Ni(II) quantum magnets

Manson, Jamie L.; Manson, Zachary E.; Sargent, Ashley; Villa, Danielle Y.; Etten, Nicole L.; Blackmore, William J.A.; Curley, Samuel P.M.; Williams, Robert C.; Brambleby, Jamie; Goddard, Paul A.; Ozarowski, Andrew; Wilson, Murray N.; Huddart, Benjamin M.; Lancaster, Tom; Johnson, Roger D.; Blundell, Stephen J.; Bendix, Jesper; Wheeler, Kraig A.; Lapidus, Saul H.; Xiao, Fan; Birnbaum, Serena; Singleton, John

doi:10.1016/j.poly.2020.114379

Enhancing easy-plane anisotropy in bespoke Ni(II) quantum magnets

Manson, Jamie L.; Manson, Zachary E.; Sargent, Ashley; Villa, Danielle Y.; Etten, Nicole L.; Blackmore, William J.A.; Curley, Samuel P.M.; Williams, Robert C.; Brambleby, Jamie; Goddard, Paul A.; Ozarowski, Andrew; Wilson, Murray N.; Huddart, Benjamin M.; Lancaster, Tom; Johnson, Roger D.; Blundell, Stephen J.; Bendix, Jesper; Wheeler, Kraig A.; Lapidus, Saul H.; Xiao, Fan; Birnbaum, Serena; Singleton, John

Authors

Jamie L. Manson

Zachary E. Manson

Ashley Sargent

Danielle Y. Villa

Nicole L. Etten

William J.A. Blackmore

Samuel P.M. Curley

Robert C. Williams

Jamie Brambleby

Paul A. Goddard

Andrew Ozarowski

Murray N. Wilson

Benjamin Huddart benjamin.m.huddart@durham.ac.uk
PGR Student Doctor of Philosophy

Professor Tom Lancaster tom.lancaster@durham.ac.uk
Professor

Roger D. Johnson

Stephen J. Blundell

Jesper Bendix

Kraig A. Wheeler

Saul H. Lapidus

Fan Xiao

Serena Birnbaum

John Singleton

Abstract

We examine the crystal structures and magnetic properties of several S = 1 Ni(II) coordination compounds, molecules and polymers, that include the bridging ligands HF2-, AF62- (A = Ti, Zr) and pyrazine or non-bridging ligands F-, SiF62-, glycine, H2O, 1-vinylimidazole, 4-methylpyrazole and 3-hydroxypyridine. Pseudo-octahedral NiN4F2, NiN4O2 or NiN4OF cores consist of equatorial Ni-N bonds that are equal to or slightly longer than the axial Ni-Lax bonds. By design, the zero-field splitting (D) is large in these systems and, in the presence of substantial exchange interactions (J), can be difficult to discriminate from magnetometry measurements on powder samples. Thus, we relied on pulsed-field magnetization in those cases and employed electron-spin resonance (ESR) to confirm D when J << D. The anisotropy of each compound was found to be easy-plane (D > 0) and range from ≈ 8-25 K. This work reveals a linear correlation between the ratio d(Ni-Lax)/d(Ni-Neq) and D although the ligand spectrochemical properties may also be important. We assert that this relationship allows us to predict the type of magnetocrystalline anisotropy in tailored Ni(II) quantum magnets.

Citation

Manson, J. L., Manson, Z. E., Sargent, A., Villa, D. Y., Etten, N. L., Blackmore, W. J., Curley, S. P., Williams, R. C., Brambleby, J., Goddard, P. A., Ozarowski, A., Wilson, M. N., Huddart, B. M., Lancaster, T., Johnson, R. D., Blundell, S. J., Bendix, J., Wheeler, K. A., Lapidus, S. H., Xiao, F., …Singleton, J. (2020). Enhancing easy-plane anisotropy in bespoke Ni(II) quantum magnets. Polyhedron, 180, Article 114379. https://doi.org/10.1016/j.poly.2020.114379

Journal Article Type	Article
Acceptance Date	Jan 17, 2020
Online Publication Date	Jan 22, 2020
Publication Date	Apr 1, 2020
Deposit Date	Jan 24, 2020
Publicly Available Date	Feb 26, 2020
Journal	Polyhedron
Print ISSN	0277-5387
Publisher	Elsevier
Peer Reviewed	Peer Reviewed
Volume	180
Article Number	114379
DOI	https://doi.org/10.1016/j.poly.2020.114379
Public URL	https://durham-repository.worktribe.com/output/1278856

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Copyright Statement
© 2020 The Authors. Published by Elsevier Ltd. This an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).