Abstract
The temperature dependence of the thermal boundary resistivity is investigated in glass-embedded Ag particles of radius 4.5 nm, in the temperature range from 300 to 70 K, using all optical time-resolved nanocalorimetry. The present results provide a benchmark for theories aiming at explaining the thermal boundary resistivity at the interface between metal nanoparticles and their environment, a topic of great relevance when tailoring thermal energy delivery from nanoparticles as for applications in nanomedicine and thermal management at the nanoscale.
Lingua originale | English |
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pagine (da-a) | N/A-N/A |
Numero di pagine | 11902 |
Rivista | Applied Physics Letters |
Volume | 100 |
DOI | |
Stato di pubblicazione | Pubblicato - 2012 |
Keywords
- Kapitza resistance
- nanomedicine
- nanoparticles
- nanothermics
- thermal boundary resistance
- thermal conductivity
- thermal transport at the nanoscale
- time resolved optics
- ultrafast spectroscopy