Using muon-spin spectroscopy, we study the exceptional dynamical properties of rotating molecular struts engineered within a Zn-based metal-organic framework at cryogenic temperatures, where the internal motions of almost any other organic substance are quenched. Muon-spin spectroscopy is particularly suited for this aim, as the experimental evidence suggests several implantation sites for the muons, among which at least one directly onto the rotating moiety. The dynamics of the molecular rotors are characterized by the exceptionally low activation energy E-A similar to 30 cal mol(-)(1). At the same time, we evidence a highly unusual temperature dependence of the dipolar interaction of muons with nuclear magnetic moments on the rotors, suggesting a complex influence of the rotations on the muon implantation and diffusion.
Molecular Rotors in a Metal–Organic Framework: Muons on a Hyper-Fast Carousel / Prando, Giacomo; Perego, Jacopo; Negroni, Mattia; Riccò, Mauro; Bracco, Silvia; Comotti, Angiolina; Sozzani, Piero; Carretta, Pietro. - In: NANO LETTERS. - ISSN 1530-6984. - 20:10(2020), pp. 7613-7618. [10.1021/acs.nanolett.0c03140]
Molecular Rotors in a Metal–Organic Framework: Muons on a Hyper-Fast Carousel
Riccò, Mauro;Sozzani, Piero;Carretta, Pietro
2020-01-01
Abstract
Using muon-spin spectroscopy, we study the exceptional dynamical properties of rotating molecular struts engineered within a Zn-based metal-organic framework at cryogenic temperatures, where the internal motions of almost any other organic substance are quenched. Muon-spin spectroscopy is particularly suited for this aim, as the experimental evidence suggests several implantation sites for the muons, among which at least one directly onto the rotating moiety. The dynamics of the molecular rotors are characterized by the exceptionally low activation energy E-A similar to 30 cal mol(-)(1). At the same time, we evidence a highly unusual temperature dependence of the dipolar interaction of muons with nuclear magnetic moments on the rotors, suggesting a complex influence of the rotations on the muon implantation and diffusion.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
