Heat capacity measurements of Sn nanostructures using a thin-film differential scanning calorimeter with 0.2 nJ sensitivity
- 6 January 1997
- journal article
- conference paper
- Published by AIP Publishing in Applied Physics Letters
- Vol. 70 (1) , 43-45
- https://doi.org/10.1063/1.119299
Abstract
We have developed a new thin-film differential scanning calorimetry technique that has extremely high sensitivity of 0.2 nJ. By combining two calorimeters in a differential measurement configuration, we have measured the heat capacity and melting process of Sn nanostructures formed via thermal evaporation with deposition thickness down to 1 Å. The equivalent resolution of the calorimeter is 1 nanogram in mass or 0.4 Å in thickness. We have observed a decrease of up to 120°C in the melting point of Sn nanostructures.Keywords
This publication has 11 references indexed in Scilit:
- Size-Dependent Melting Properties of Small Tin Particles: Nanocalorimetric MeasurementsPhysical Review Letters, 1996
- High-speed (104 °C/s) scanning microcalorimetry with monolayer sensitivity (J/m2)Applied Physics Letters, 1995
- Magic numbers for classical Lennard-Jones cluster heat capacitiesThe Journal of Chemical Physics, 1995
- An Ultrafast Thin-Film Microcalorimeter with Monola Yer Sensitivity (J/m2)MRS Proceedings, 1995
- Thin film microcalorimeter for heat capacity measurements from 1.5 to 800 KReview of Scientific Instruments, 1994
- 1 000 000 °C/s thin film electrical heater: In situ resistivity measurements of Al and Ti/Si thin films during ultra rapid thermal annealingApplied Physics Letters, 1994
- Calorimetric studies of reactions in thin films and multilayersApplied Surface Science, 1989
- The chemisorption of hydrogen on the (110) surface of iridiumThe Journal of Chemical Physics, 1980
- Size effect on the melting temperature of gold particlesPhysical Review A, 1976
- Electron-Diffraction Study of Liquid-Solid Transition of Thin Metal FilmsJournal of the Physics Society Japan, 1954