Controlling Magnetic Order and Quantum Disorder in Molecule-Based Magnets

Lancaster, T.
Goddard, P. A.
Blundell, S. J.
Foronda, F. R.
Ghannadzadeh, S.
Möller, J. S.
Baker, P. J.
Pratt, F. L.
Baines, C.
Huang, L.
Wosnitza, J.
McDonald, R. D.
Modic, K. A.
Singleton, J.
Topping, C. V.
Beale, T. A. W.
Xiao, F.
Schlueter, J. A.
Barton, A. M.
Cabrera, R. D.
Carreiro, K. E.
Tran, H. E.
Manson, J. L.

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Publication date

May 2014

DOI

10.1103/physrevlett.112.207201

Publisher

American Physical Society

Language

English

Abstract

We investigate the structural and magnetic properties of two molecule-based magnets synthesized from the same starting components. Their different structural motifs promote contrasting exchange pathways and consequently lead to markedly different magnetic ground states. Through examination of their structural and magnetic properties we show that [Cu(pyz)(H 2 O)(gly) 2 ](ClO 4 ) 2 may be considered a quasi-one-dimensional quantum Heisenberg antiferromagnet whereas the related compound [Cu(pyz)(gly)](ClO 4 ) , which is formed from dimers of antiferromagnetically interacting Cu 2+ spins, remains disordered down to at least 0.03 K in zero field but shows a field-temperature phase diagram reminiscent of that seen in materials showing a Bose-Eins...