Magnetochemistry (Nov 2024)

Two New 2p–3d Metal Complexes with a Nitronyl-Nitroxide Ligand Derived from <i>o</i>-Vanillin: Synthesis, Crystals Structures and Magnetic Properties

  • Cristian Andrei Spinu,
  • Daniel O. T. A. Martins,
  • Teodora Mocanu,
  • Mihaela Hillebrand,
  • Jean-Pascal Sutter,
  • Floriana Tuna,
  • Marius Andruh

DOI
https://doi.org/10.3390/magnetochemistry10110086
Journal volume & issue
Vol. 10, no. 11
p. 86

Abstract

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Two new 2p–3d complexes, (Et3NH)[ML(hfac)2], have been obtained using the nitronyl-nitroxide radical (HL) derived from 2-hydroxy-3-methoxy-5-nitrobenzaldehyde (M = Mn 1; Co 2). The two compounds are isomorphous and their structures consist of anionic mononuclear species, [M(hfac)2L]−, M = Mn 1; Co 2, and triethylammonium cations, Et3NH+. The metal ions adopt an octahedral geometry, being coordinated by phenoxido and aminoxyl oxygen atoms from the ligand and four oxygen atoms from the hexafluoroacetylacetonato (hfac−) ligand. The cryomagnetic behaviors of the two compounds reveal relatively strong antiferromagnetic M(II)-Rad interactions (JMnRad = −191 cm−1, JCoRad = −166 cm−1 with H = −JSMSRad). The EPR spectra (X- and Q-band) of compound 1 below 70 K show the characteristical features of a S = 2 spin system with zero field splitting terms of D = 0.26 cm−1 and E = 0.031 cm−1.

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