Nuclear Magnetic Resonance is particularly sensitive to the electronic structure of matter and is thus a powerful tool to characterize in-depth the magnetic properties of a system. NMR is indeed increasingly recognized as an ideal tool to add precious structural information for the development of Single Ion Magnets, small complexes that are recently gaining much popularity due to their quantum computing and spintronics applications. In this review, we recall the theoretical principles of paramagnetic NMR, with particular attention to lanthanoids, and we give an overview of the recent advances in this field.
Nmr for single ion magnets / Gigli L.; Di Grande S.; Ravera E.; Parigi G.; Luchinat C.. - In: MAGNETOCHEMISTRY. - ISSN 2312-7481. - ELETTRONICO. - 7:(2021), pp. 96-96.21. [10.3390/magnetochemistry7070096]
Nmr for single ion magnets
Gigli L.;Di Grande S.;Ravera E.;Parigi G.;Luchinat C.
2021
Abstract
Nuclear Magnetic Resonance is particularly sensitive to the electronic structure of matter and is thus a powerful tool to characterize in-depth the magnetic properties of a system. NMR is indeed increasingly recognized as an ideal tool to add precious structural information for the development of Single Ion Magnets, small complexes that are recently gaining much popularity due to their quantum computing and spintronics applications. In this review, we recall the theoretical principles of paramagnetic NMR, with particular attention to lanthanoids, and we give an overview of the recent advances in this field.
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