Issue 8, 2023

Structural, magnetic and phase transition properties in S = ½ radical solid solutions of [FxCl1−x-BzPy][Ni(mnt)2] (x = 0.07–0.87)

Abstract

Solid solutions offer an opportunity for modulating the structural and physical properties of materials and better understanding the origin of physical phenomena as well. Herein, two salts [R-BzPy][Ni(mnt)2] (R-BzPy+ = 4-R-benzylpyridinium, substituent group R = F, Cl; mnt2− = maleonitriledithiolate) and their solid solutions [FxCl1−x-BzPy][Ni(mnt)2] (x = 0.07–0.87) were prepared and characterized by IR, Raman and 1H NMR spectroscopy, microanalysis, PXRD, SXRD and TG techniques. All salts are isomorphic at room temperature with almost the same packing manner, where both cations and anions form segregated and regular columnar stacks. A magnetic phase transition occurs in each salt at a certain temperature (TC) in the range of 93–108 K, showing one-dimensional (1D) S = ½ regular spin chain behavior in the high temperature phase (HTP) and spin-gap characteristics (with singlet–triplet gap >500 K) in the low temperature phase (LTP). Remarkably, the solid solutions (x = 0.07–0.39) display regular antiferromagnetism (AFM), while others show uniform ferromagnetic (FM) chain behavior in the HTP. It is discussed that the solid solutions (x = 0.07–0.54) show higher TC than the two parent salts, and the magnetic coupling feature in the HTP anomalously changes with fluorine content (x) in [FxCl1−x-BzPy][Ni(mnt)2] (x = 0–1).

Graphical abstract: Structural, magnetic and phase transition properties in S = ½ radical solid solutions of [FxCl1−x-BzPy][Ni(mnt)2] (x = 0.07–0.87)

Supplementary files

Article information

Article type
Research Article
Submitted
17 Jan 2023
Accepted
02 Mar 2023
First published
03 Mar 2023

Inorg. Chem. Front., 2023,10, 2325-2334

Structural, magnetic and phase transition properties in S = ½ radical solid solutions of [FxCl1−x-BzPy][Ni(mnt)2] (x = 0.07–0.87)

W. Yao, B. Ma, L. Xu, D. Shao, Y. Qian, W. Liu and X. Ren, Inorg. Chem. Front., 2023, 10, 2325 DOI: 10.1039/D3QI00114H

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