Issue 15, 2024

Large magnetic anisotropy of a decorated spin-chain system K2Co3(MoO4)3(OH)2

Abstract

The magnetic structure of K2Co3(MoO4)3(OH)2 is studied in detail. The material has a half-sawtooth one-dimensional (1-D) structure containing two unique Co2+ ions, one in the chain backbone and one on the apex of the sawtooth creating a series of isosceles triangles along the b-axis. These triangles can be a source of magnetic frustration. The ability to grow large single crystals enables detailed magnetic measurements with the crystals oriented in a magnetic field along the respective axes. It has a Curie–Weiss temperature θCW of 5.3(2) K with an effective magnetic moment of 4.8(3)μB/Co. The material is highly anisotropic with a sharp antiferromagnetic ordering transition at 7 K with a metamagnetic transition at 2 kOe. Neutron diffraction was used to determine the magnetic structure and revealed a magnetic structure with canted spins along the backbone of the chain while spins along the sawtooth caps maintained a colinear orientation, arranging antiferromagnetically relative to the backbone spins. The parallel chains arrange antiferromagnetically relative to each other along the c-axis and ferromagnetically along the a-axis.

Graphical abstract: Large magnetic anisotropy of a decorated spin-chain system K2Co3(MoO4)3(OH)2

Supplementary files

Article information

Article type
Paper
Submitted
23 Jan 2024
Accepted
14 Feb 2024
First published
15 Feb 2024

Dalton Trans., 2024,53, 6592-6600

Large magnetic anisotropy of a decorated spin-chain system K2Co3(MoO4)3(OH)2

B. K. Patel, F. Ye, W. L. N. C. Liyanage, C. C. Buchanan, D. A. Gilbert, J. W. Kolis and L. D. Sanjeewa, Dalton Trans., 2024, 53, 6592 DOI: 10.1039/D4DT00203B

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