Title :
Characterization of thermal transport in multiwalled carbon nanotube using FIB irradiation
Author :
Takahashi, Koichi ; Hayashi, H.
Author_Institution :
Dept. of Aeronaut. & Astronaut., Kyushu Univ., Fukuoka, Japan
Abstract :
Thermal conductance of an individual multiwalled carbon nanotube was measured as a function of its length. Focused ion beam was used to shorten a 4.8 micrometer-long nanotube to 2.4, 1.2, 0.6, and 0.3-micrometer-long specimens on a hot-film sensor. As the nanotube is shorten, the conductance decreases more than expected by the diffusive thermal conduction theory. We treated two nanotubes of 64nm and 85nm diameters, both of which showed quasi-ballistic phonon transport. This is the first experiment to quantitatively investigate the contribution of phonons with long free paths in multiwalled carbon nanotube. The principle of thermal measurement, amorphous carbon induced by the ion beam, and considerable errors are also explained.
Keywords :
carbon nanotubes; focused ion beam technology; heat conduction; nanosensors; radiation hardening (electronics); temperature measurement; temperature sensors; thin film sensors; C; FIB irradiation; amorphous carbon; diffusive thermal conduction theory; focused ion beam irradiation; hot- film sensor; multiwalled carbon nanotube; quasiballistic phonon transport; size 0.3 mum; size 0.6 mum; size 1.2 mum; size 2.4 mum; size 4.8 mum; size 64 nm; size 85 nm; thermal conductance; thermal measurement; thermal transport characterization; Carbon nanotubes; Conductivity; Electrical resistance measurement; Phonons; Radiation effects; Thermal conductivity; Thermal resistance; MEMS; ballistic heat transport; focused ion beam; nano thermal sensor; phonon; thermal conductivity;
Conference_Titel :
Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm), 2014 IEEE Intersociety Conference on
Conference_Location :
Orlando, FL
DOI :
10.1109/ITHERM.2014.6892439
