@article{10902/32614,
year = {2022},
url = {https://hdl.handle.net/10902/32614},
abstract = {The pressure-induced switch of the long axis of MnF₆³⁻ units in the monoclinic Na₃MnF₆ compound and Mn³⁺-doped Na₃FeF₆ is explored with the help of first principles calculations. Although the switch phenomenon is usually related to the Jahn-Teller effect, we show that, due to symmetry reasons, it cannot take place in 3dⁿ (n=4, 9) systems displaying a static Jahn-Teller effect. By contrast, we prove that in Na₃MnF₆ the switch arises from the anisotropic response of the low symmetry lattice to hydrostatic pressure. Indeed, while the long axis of a MnF₆³⁻ unit at ambient pressure corresponds to the Mn³⁺−F₃⁻ direction, close to the crystal c axis, at 2.79 GPa the c axis is reduced by 0.29 Å while b is unmodified. This fact is shown to force a change of the HOMO wavefunction favoring that the long axis becomes the Mn³⁺−F₂⁻ direction, not far from crystal b axis, after the subsequent relaxation process. The origin of the different d-d transitions observed for Na₃MnF₆ and CrF₂ at ambient pressure is also discussed together with changes induced by pressure in Na₃MnF₆. The present work opens a window for understanding the pressure effects upon low symmetry insulating compounds containing d⁴ or d⁹ ions.},
organization = {The authors acknowledge financial support from Grant PGC2018-096955-B-C41 funded by MCIN/AEI/10.13039/501100011033 and by “ERDF A way of making Europe”, by the European Union. The support by the European Union and the University of Cantabria under FEDER project EQC2019-006136-P is also acknowledged.},
publisher = {Wiley-VCH Verlag},
publisher = {Chemistry - A European Journal, 2022, 28(43), e202200948},
title = {Pressure effects on 3dn (n=4, 9) insulating compounds: long axis switch in Na₃MnF₆ not due to the Jahn-Teller effect},
author = {Sánchez de Movellán Sáiz, Inés and Carrasco Busturia, David and García Lastra, Juan María and García Fernández, Pablo (físico) and Aramburu-Zabala Higuera, José Antonio and Moreno Mas, Miguel},
}