Plasmonic nanostructures, featuring near infrared (NIR)-absorption, are rising as efficient nanosystems for in vitro photothermal (PT) studies and in vivo PT treatment of cancer diseases. Among the different materials, new plasmonic nanostructures based on Cu2-xS nanocrystals (NCs) are emerging as valuable alternatives to Au nanorods, nanostars and nanoshells, largely exploited as NIR absorbing nanoheaters. Even though Cu2-xS plasmonic properties are not linked to geometry, the role played by their size, shape and surface chemistry is expected to be fundamental for an efficient PT process. Here, Cu2-xS NCs coated with a hydrophilic mesoporous silica shell (MSS) are synthesized by solution-phase strategies, tuning the core geometry, MSS thickness and texture. Besides their loading capability, the silica shell has been widely reported to provide a more robust plasmonic core protection than organic molecular/polymeric coatings, and improved heat flow from the NC to the environment due to a reduced interfacial thermal resistance and direct electron-phonon coupling through the interface. Systematic structural and morphological analysis of the core-shell nanoparticles and an in-depth thermoplasmonic characterization by using a pump beam 808 nm laser, are carried out. The results suggest that large triangular nanoplates (NPLs) coated by a few tens of nanometers thick MSS, show good photostability under laser light irradiation and provide a temperature increase above 38 °C and a 20% PT efficiency upon short irradiation time (60 s) at 6 W/cm2 power density.

NIR-absorbing mesoporous silica-coated copper sulphide nanostructures for light-to-thermal energy conversion / Fanizza, Elisabetta; Mastrogiacomo, Rita; Pugliese, Orietta; Guglielmelli, Alexa; DE SIO, Luciano; Castaldo, Rachele; principia scavo, Maria; Giancaspro, Mariangela; Rizzi, Federica; Gentile, Gennaro; Vischio, Fabio; Carrieri, Livianna; De Pasquale, Ilaria; Mandriota, Giacomo; Petronella, Francesca; Ingrosso, Chiara; Lavorgna, Marino; Comparelli, Roberto; Striccoli, Marinella; Lucia Curri, Maria; Depalo, Nicoletta. - In: NANOMATERIALS. - ISSN 2079-4991. - 12:15(2022), pp. 1-19. [10.3390/nano12152545]

NIR-absorbing mesoporous silica-coated copper sulphide nanostructures for light-to-thermal energy conversion

Luciano De Sio;
2022

Abstract

Plasmonic nanostructures, featuring near infrared (NIR)-absorption, are rising as efficient nanosystems for in vitro photothermal (PT) studies and in vivo PT treatment of cancer diseases. Among the different materials, new plasmonic nanostructures based on Cu2-xS nanocrystals (NCs) are emerging as valuable alternatives to Au nanorods, nanostars and nanoshells, largely exploited as NIR absorbing nanoheaters. Even though Cu2-xS plasmonic properties are not linked to geometry, the role played by their size, shape and surface chemistry is expected to be fundamental for an efficient PT process. Here, Cu2-xS NCs coated with a hydrophilic mesoporous silica shell (MSS) are synthesized by solution-phase strategies, tuning the core geometry, MSS thickness and texture. Besides their loading capability, the silica shell has been widely reported to provide a more robust plasmonic core protection than organic molecular/polymeric coatings, and improved heat flow from the NC to the environment due to a reduced interfacial thermal resistance and direct electron-phonon coupling through the interface. Systematic structural and morphological analysis of the core-shell nanoparticles and an in-depth thermoplasmonic characterization by using a pump beam 808 nm laser, are carried out. The results suggest that large triangular nanoplates (NPLs) coated by a few tens of nanometers thick MSS, show good photostability under laser light irradiation and provide a temperature increase above 38 °C and a 20% PT efficiency upon short irradiation time (60 s) at 6 W/cm2 power density.
2022
Cu2−xS nanocrystals; mesoporous silica; photothermal properties; plasmonic nanostructures
01 Pubblicazione su rivista::01a Articolo in rivista
NIR-absorbing mesoporous silica-coated copper sulphide nanostructures for light-to-thermal energy conversion / Fanizza, Elisabetta; Mastrogiacomo, Rita; Pugliese, Orietta; Guglielmelli, Alexa; DE SIO, Luciano; Castaldo, Rachele; principia scavo, Maria; Giancaspro, Mariangela; Rizzi, Federica; Gentile, Gennaro; Vischio, Fabio; Carrieri, Livianna; De Pasquale, Ilaria; Mandriota, Giacomo; Petronella, Francesca; Ingrosso, Chiara; Lavorgna, Marino; Comparelli, Roberto; Striccoli, Marinella; Lucia Curri, Maria; Depalo, Nicoletta. - In: NANOMATERIALS. - ISSN 2079-4991. - 12:15(2022), pp. 1-19. [10.3390/nano12152545]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1652268
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