Add to ORKGSince early days of their discovery, it has been realized that Carbon Nanotubes (CNTs) have an unusually high thermal conductivity. Unfortunately, the amount of heat they can transfer from one medium to another can be limited by their thermal contact resistance, Rc, which in the worst case can result in thermally insulating bulk materials. Prior studies on individual nanotubes have reached various disparate conclusions, partly because many techniques employed for measuring such small samples rely on uncharacterized heat sources thus leaving fundamental uncertainties in the measurements. This has caused concerns that the true potential of these extraordinary thermal conductors will remain untapped. Relying on solid to liquid phase transiti...
textAs silicon-based transistor technology continues to scale ever downward, anticipation of the fun...
Scanning thermal microscopy (SThM) is an attractive technique for nanoscale thermal measurements. Mu...
We use breakdown thermometry to study carbon nanotube (CNT) devices and graphene nanoribbons (GNRs) ...
Understanding thermal transport is of great interest in combatting the excess heat generated in curr...
We present an experimental proof of concept of scanning thermal nanoprobes that utilize the extreme ...
We present an experimental proof of concept of scanning thermal nanoprobes that utilize the extreme ...
We present a new concept of scanning thermal nanoprobe that utilizes the extreme thermal conductance...
We study heat dissipation of a multi-wall carbon nanotube (MWCNT) device fabricated from two crossed...
We have determined the thermal resistance for transferring heat between individual single-walled car...
This article is free to read on the publisher's website Understanding resistive (or Joule) heating i...
We have extracted temperature-dependent thermal conductivity values from scanning thermal microscopy...
Carbon nanotube (CNT) films have a broad range of applications, from solar cells and transistors to ...
We report electrical transport experiments, using the phenomenon of electrical breakdown to perform ...
textAs silicon-based transistor technology continues to scale ever downward, anticipation of the fun...
We have extracted temperature-dependent thermal conductivity values from scanning thermal microscopy...
textAs silicon-based transistor technology continues to scale ever downward, anticipation of the fun...
Scanning thermal microscopy (SThM) is an attractive technique for nanoscale thermal measurements. Mu...
We use breakdown thermometry to study carbon nanotube (CNT) devices and graphene nanoribbons (GNRs) ...
Understanding thermal transport is of great interest in combatting the excess heat generated in curr...
We present an experimental proof of concept of scanning thermal nanoprobes that utilize the extreme ...
We present an experimental proof of concept of scanning thermal nanoprobes that utilize the extreme ...
We present a new concept of scanning thermal nanoprobe that utilizes the extreme thermal conductance...
We study heat dissipation of a multi-wall carbon nanotube (MWCNT) device fabricated from two crossed...
We have determined the thermal resistance for transferring heat between individual single-walled car...
This article is free to read on the publisher's website Understanding resistive (or Joule) heating i...
We have extracted temperature-dependent thermal conductivity values from scanning thermal microscopy...
Carbon nanotube (CNT) films have a broad range of applications, from solar cells and transistors to ...
We report electrical transport experiments, using the phenomenon of electrical breakdown to perform ...
textAs silicon-based transistor technology continues to scale ever downward, anticipation of the fun...
We have extracted temperature-dependent thermal conductivity values from scanning thermal microscopy...
textAs silicon-based transistor technology continues to scale ever downward, anticipation of the fun...
Scanning thermal microscopy (SThM) is an attractive technique for nanoscale thermal measurements. Mu...
We use breakdown thermometry to study carbon nanotube (CNT) devices and graphene nanoribbons (GNRs) ...