Issue 18, 2020

1D metal-oxalates H2DABCO[M(C2O4)2]·3H2O (M(ii): Co, Mg, Zn): phase transitions and magnetic, dielectric, and phonon properties

Abstract

The family of 1D hybrid organic–inorganic metal oxalates H2DABCO[M(C2O4)2]·3H2O (where H2DABCO is diprotonated 1.4-diazoniabicyclo[2.2.2]octane and M(II): Co, Mg, Zn) display paraelectric to ferroelectric phase transition between 203 and 217 K, triggered by rearrangement of crystalline water present in the crystal structure. The symmetry decreases from P21/n to P21. We demonstrate that spontaneous electric polarization arises due to the release of dipolar crystalline water from steric hindrances present in the paraelectric phase. The increased dynamics of water in the ferroelectric phase is preceded by the significant reconstruction of the hydrogen-bond network. Breaking of hydrogen bonds leads to elongation of the metal-oxalate chains resulting in negative thermal expansion in the c-direction as well as distortion of the uncoordinated oxalate ligands. The analysis of IR modes confirms the mechanism of the phase transition while the broadband dielectric spectroscopy reveals significant reduction of activation energy assigned to water rotation at low temperatures. The investigated metal-oxalates act as microporous materials above room temperature, by losing (with heating) and recovering (with cooling) crystalline water. The compounds show switchable dielectric behaviour related to ferroelectric phase transition. Additionally, the Co analogue exhibits spin-canted antiferromagnetic ordering at 7 K and, by extension, is the first multiferroic homometallic 1D oxalato-bridged coordination polymer.

Graphical abstract: 1D metal-oxalates H2DABCO[M(C2O4)2]·3H2O (M(ii): Co, Mg, Zn): phase transitions and magnetic, dielectric, and phonon properties

Supplementary files

Article information

Article type
Paper
Submitted
12 Jan 2020
Accepted
25 Mar 2020
First published
25 Mar 2020

J. Mater. Chem. C, 2020,8, 6254-6263

1D metal-oxalates H2DABCO[M(C2O4)2]·3H2O (M(II): Co, Mg, Zn): phase transitions and magnetic, dielectric, and phonon properties

K. Pasińska, A. Ciupa, A. Pikul, A. Gągor, A. Pietraszko and A. Ciżman, J. Mater. Chem. C, 2020, 8, 6254 DOI: 10.1039/D0TC00192A

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