Add to ORKGHere we show that hierarchical structures based on one-dimensional filaments such as carbon nanotubes lead to superior thermal management networks, capable of effectively mitigating high-density ultrasmall nanoscale heat sources through volumetric heat sinks at micrometer and larger scales. The figure of merit of heat transfer is quantified through the effective thermal conductance as well as the steady-state temperature distribution in the network. In addition to providing an overall increased thermal conductance, we find that hierarchical structures drastically change the temperature distribution in the immediate vicinity of a heat source, significantly lowering the temperature at shorter distances. Our work brings about a synergistic vie...
International audienceThe past decade has seen a considerable growth in portable devices with mobile...
As transistor gate lengths are scaled towards the 10-nm range, thermal device design is becoming an ...
Abstract: The field of thermoelectric materials has undergone a revolutionary transformation over th...
In conclusion, the analysis and measurement of thermal properties are crucial for a wide range of ap...
The performances of microelectronic and optoelectronic devices are often severely limited by high te...
Thermal management of high temperature systems through cooling droplets is limited by the existence ...
Understanding thermal transport from nanoscale heat sources is important for a fundamental descripti...
The study of thermal properties of large networks of carbon nanoparticles may have an important imp...
Heat transfer laws for conduction, radiation and convection change when the dimensions of the system...
One of the most important hurdles in electron-beam technologies such as thermionic energy conversion...
As electronic circuits grow denser and their power consumption per unit area is increasing, new, mor...
Fundamental thermal management problems, from macroscopic issues such as global warming to microscal...
Heat transport at nanoscale is of importance for many nanotech- nology applications. The request to ...
Author name used in this publication: Yang Liu2010-2011 > Academic research: refereed > Publication ...
Huge development in the synthesis and processing of materials with nanostructures on nanometer lengt...
International audienceThe past decade has seen a considerable growth in portable devices with mobile...
As transistor gate lengths are scaled towards the 10-nm range, thermal device design is becoming an ...
Abstract: The field of thermoelectric materials has undergone a revolutionary transformation over th...
In conclusion, the analysis and measurement of thermal properties are crucial for a wide range of ap...
The performances of microelectronic and optoelectronic devices are often severely limited by high te...
Thermal management of high temperature systems through cooling droplets is limited by the existence ...
Understanding thermal transport from nanoscale heat sources is important for a fundamental descripti...
The study of thermal properties of large networks of carbon nanoparticles may have an important imp...
Heat transfer laws for conduction, radiation and convection change when the dimensions of the system...
One of the most important hurdles in electron-beam technologies such as thermionic energy conversion...
As electronic circuits grow denser and their power consumption per unit area is increasing, new, mor...
Fundamental thermal management problems, from macroscopic issues such as global warming to microscal...
Heat transport at nanoscale is of importance for many nanotech- nology applications. The request to ...
Author name used in this publication: Yang Liu2010-2011 > Academic research: refereed > Publication ...
Huge development in the synthesis and processing of materials with nanostructures on nanometer lengt...
International audienceThe past decade has seen a considerable growth in portable devices with mobile...
As transistor gate lengths are scaled towards the 10-nm range, thermal device design is becoming an ...
Abstract: The field of thermoelectric materials has undergone a revolutionary transformation over th...