Imaging dissipation and hot spots in carbon nanotube network transistors
Abstract
We use infrared thermometry of carbon nanotube network (CNN) transistors and find the formation of distinct hot spots during operation. However, the average CNN temperature at breakdown is significantly lower than expected from the breakdown of individual nanotubes, suggesting extremely high regions of power dissipation at the CNN junctions. Statistical analysis and comparison with a thermal model allow the estimate of an upper limit for the average tube-tube junction thermal resistance, ∼4.4×1011 K/W (thermal conductance of ∼2.27 pW/K). These results indicate that nanotube junctions have a much greater impact on CNN transport, dissipation, and reliability than extrinsic factors such as low substrate thermal conductivity.
- Publication:
-
Applied Physics Letters
- Pub Date:
- February 2011
- DOI:
- 10.1063/1.3549297
- arXiv:
- arXiv:1011.4551
- Bibcode:
- 2011ApPhL..98g3102E
- Keywords:
-
- carbon nanotubes;
- cooling;
- electric breakdown;
- infrared imaging;
- reliability;
- statistical analysis;
- thermal conductivity;
- 66.70.Lm;
- 61.48.De;
- 65.80.-g;
- 81.07.De;
- 85.35.Kt;
- 77.22.Jp;
- Other systems such as ionic crystals molecular crystals nanotubes etc.;
- Structure of carbon nanotubes boron nanotubes and closely related graphitelike systems;
- Nanotubes;
- Nanotube devices;
- Dielectric breakdown and space-charge effects;
- Condensed Matter - Mesoscale and Nanoscale Physics;
- Condensed Matter - Materials Science
- E-Print:
- Applied Physics Letters vol. 98, p. 073102 (2011)