Issue 35, 2020

In situ observation of the magnetocaloric effect through neutron diffraction in the Tb(DCO2)3 and TbODCO3 frameworks

Abstract

Probing the magnetic structure of magnetocaloric materials in applied fields, can reveal detailed insight into the mechanism of magnetic refrigeration thereby linking the magnetic states that form under applied magnetic fields to changes in magnetic entropy. This study probes the long range magnetic order in Tb(DCO2)3 and TbODCO3 as a function of temperature and applied magnetic field, through neutron diffraction measurements. A triangular Ising antiferromagnetic phase is formed, in small applied magnetic fields in Tb(DCO2)3, a spin flip transition occurs to a simple ferromagnetic structure in higher applied fields. TbODCO3 undergoes a phase transition, in applied fields, into two magnetic phases; namely a buckled chain ferromagnetic phase along the b-axis and a canted antiferromagnetic phase, with a ferromagnetic component along c-axis. Both of the states observed in TbODCO3 are consistent with Ising-like anisotropy previously reported in TbODCO3 and the coexistance of these is likely the result of applying a magnetic field to a powdered sample.

Graphical abstract: In situ observation of the magnetocaloric effect through neutron diffraction in the Tb(DCO2)3 and TbODCO3 frameworks

Supplementary files

Article information

Article type
Paper
Submitted
03 Jul 2020
Accepted
13 Aug 2020
First published
14 Aug 2020
This article is Open Access
Creative Commons BY license

J. Mater. Chem. C, 2020,8, 12123-12132

In situ observation of the magnetocaloric effect through neutron diffraction in the Tb(DCO2)3 and TbODCO3 frameworks

R. J. C. Dixey, P. Manuel, F. Orlandi, P. Mukherjee, S. E. Dutton, G. B. G. Stenning and P. J. Saines, J. Mater. Chem. C, 2020, 8, 12123 DOI: 10.1039/D0TC03153D

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