Data di Pubblicazione:
2020
Citazione:
{NMR} Study of Spin Dynamics in V7Zn and V7Ni Molecular Rings / F. Adelnia, P. Arosio, M. Mariani, F. Orsini, A. Radaelli, C. Sangregorio, F. Borsa, J.P.S. Walsh, R. Winpenny, G. Timco, A. Lascialfari. - In: APPLIED MAGNETIC RESONANCE. - ISSN 0937-9347. - 51:11(2020 Nov), pp. 1277-1293. [10.1007/s00723-020-01281-3]
Abstract:
We present a 1H NMR investigation of spin dynamics in two fnite integer spin molecular nanomagnetic rings, namely V7Zn and V7Ni. This study could be put in correlation with the problem of Haldane gap in infnite integer spin chains. While V7Zn is an approximation of a homometallic broken chain due to the presence of s=0 Zn2+ ion uncoupled from nearest neighbor V2+ s=1 ions, the V7Ni compound constitutes an example of a closed periodical s=1 heterometallic chain. From preliminary susceptibility measurements on single crystals and data analysis, the exchange coupling constant J/kB results in the order of few kelvin. At room temperature, the frequency behavior of the 1H NMR spin–lattice relaxation rate 1/T1 allowed to conclude that the spin–spin correlation function is similar to the one observed in semi-integer spin molecules, but with a smaller cutof frequency. Thus, the high-T data can be interpreted in terms of, e.g., a Heisenberg model including spin difusion. On the other hand, the behavior of 1/T1 vs temperature at diferent constant
felds reveals a clear peak at temperature of the order of J/kB, qualitatively in agreement with the well-known Bloembergen–Purcell–Pound model and with previous results on semi-integer molecular spin systems. Consequently, one can suggest that for a small number N of interacting s=1 ions (N=8), the Haldane conjecture does not play a key role on spin dynamics, and the investigated rings still keep the quantum nature imposed mainly by the low number of magnetic centers, with no clear topological efect due to integer spins.
Tipologia IRIS:
01 - Articolo su periodico
Elenco autori:
F. Adelnia, P. Arosio, M. Mariani, F. Orsini, A. Radaelli, C. Sangregorio, F. Borsa, J.P.S. Walsh, R. Winpenny, G. Timco, A. Lascialfari
Link alla scheda completa: