1. A tetrathiafulvalene salt of the nitrite (NO2−) anion: investigations of the spin-Peierls phase.
- Author
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Soriano, Loïc, Orio, Maylis, Pilone, Olivier, Jeannin, Olivier, Reinheimer, Eric, Quéméré, Nicolas, Auban-Senzier, Pascale, Fourmigué, Marc, and Bertaina, Sylvain
- Abstract
Electrocrystallization of ortho-dimethyltetrathiafulvalene (o-DMTTF) in the presence of a nitrite (NO
2 − ) anion affords a 2 : 1 phase, namely (o-DMTTF)2 NO2 , the first example of an isolated cation radical salt with NO2 − . The o-DMTTF molecule organizes into strongly dimerized stacks that adopt a rare chessboard organization, associated with a strongly 1D structure. As a consequence of dimerization, the salt exhibits a semiconducting behavior (σRT = 5 S cm−1 , Eact = 0.1 eV). The bent NO2 − anion is disordered on the inversion center but does not exhibit any anion-ordering transition. Combined SQUID magnetometry and electron paramagnetic resonance (EPR) experiments demonstrate the appearance of a spin-Peierls transition with TSP = 70 K. The temperature dependence of the spin gap and associated dimerization parameter δ across the spin-Peierls transition have been determined. The low-temperature narrow EPR line observed below TSP is attributable to intrinsic magnetic defects localized on the o-DMTTF molecules themselves. The broadening of the EPR line at higher magnetic fields is associated with the disordered NO2 − anions surrounding these magnetic defects, contributing to the inhomogeneity of their g factor. [ABSTRACT FROM AUTHOR]- Published
- 2023
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