Here we report on nanoarchitectures composed of molecular magnets deposited on optical nanoantennas. We demonstrate a significantly boosted magneto-optical detection of a thin film of a terbium(III) bis-phthalocianinato (TbPc2) single-molecule magnet and we track down the origin of this enhancement to nanoantenna effects at the optical level. This finding suggests that the vast knowledge on plasmon-enhanced spectroscopies can be readily extended to magneto-optics, thus paving the way to strong magneto-optical enhancements for the readout of nanometric devices embedding single-molecule magnets.
Plasmon-enhanced magneto-optical detection of single-molecule magnets / Pineider F., Pedrueza-Villalmanzo E., Serri M., Adamu A.M., Smetanina E., Bonanni V., Campo G., Poggini L., Mannini M., De Julian Fernandez C., Sangregorio C., Gurioli M., Dmitriev A., Sessoli R.. - In: MATERIALS HORIZONS. - ISSN 2051-6347. - STAMPA. - 6:(2019), pp. 1148-1155. [10.1039/c8mh01548a]
Plasmon-enhanced magneto-optical detection of single-molecule magnets
Pineider F.
;Serri M.
;Campo G.
;Poggini L.
;Mannini M.;Sangregorio C.
;Gurioli M.
;Sessoli R.
2019
Abstract
Here we report on nanoarchitectures composed of molecular magnets deposited on optical nanoantennas. We demonstrate a significantly boosted magneto-optical detection of a thin film of a terbium(III) bis-phthalocianinato (TbPc2) single-molecule magnet and we track down the origin of this enhancement to nanoantenna effects at the optical level. This finding suggests that the vast knowledge on plasmon-enhanced spectroscopies can be readily extended to magneto-optics, thus paving the way to strong magneto-optical enhancements for the readout of nanometric devices embedding single-molecule magnets.I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.



