Add to ORKGWe review the results of our experimental and theoretical study of thermal conductivity of graphene. Using an original optical measurement technique we discovered that thermal conductivity of suspended graphene flakes is extremely high and can exceeds that of bulk graphite and carbon nanotubes. The high value of thermal conductivity of graphene and its dependence on the graphene flake size were explained within the framework of Klemens theory. Superior thermal properties of graphene benefit all proposed electronic applications of graphene and may lead to the new high-heat flux thermal management solutions for advanced electronics
As a two-dimensional(2D) building block of new materials, graphene has received widespread attention...
The research includes the investigation of thermal Conductivity for Graphene nanocomposite. Nano gra...
Graphene exhibits extraordinary electronic and mechanical properties, and extremely high thermal con...
doi:10.1088/1367-2630/11/8/000000 Abstract. We review the results of our experimental investigation ...
We characterize the thermal conductivity of graphite, monolayer graphene, graphane, fluorographane, ...
In the sample size domain so far explored, the thermal conductivity of graphene shows an intriguing ...
In the sample size domain so far explored, the thermal conductivity of graphene shows an intriguing ...
Thermal transport in suspended graphene samples has been measured in prior works and this work with ...
International audienceNew expressions have been obtained to estimate the graphene thermal conductivi...
International audienceNew expressions have been obtained to estimate the graphene thermal conductivi...
International audienceNew expressions have been obtained to estimate the graphene thermal conductivi...
There has been increasing interest in thermal conductivity of materials motivated by the heat remova...
This paper envisages a mechanism of heat conduction behind the thermal conductivity enhancement obse...
With the integration and miniaturization of electronic devices, thermal management has become a cruc...
We theoretically and experimentally studied the thermal transport properties in various graphene-bas...
As a two-dimensional(2D) building block of new materials, graphene has received widespread attention...
The research includes the investigation of thermal Conductivity for Graphene nanocomposite. Nano gra...
Graphene exhibits extraordinary electronic and mechanical properties, and extremely high thermal con...
doi:10.1088/1367-2630/11/8/000000 Abstract. We review the results of our experimental investigation ...
We characterize the thermal conductivity of graphite, monolayer graphene, graphane, fluorographane, ...
In the sample size domain so far explored, the thermal conductivity of graphene shows an intriguing ...
In the sample size domain so far explored, the thermal conductivity of graphene shows an intriguing ...
Thermal transport in suspended graphene samples has been measured in prior works and this work with ...
International audienceNew expressions have been obtained to estimate the graphene thermal conductivi...
International audienceNew expressions have been obtained to estimate the graphene thermal conductivi...
International audienceNew expressions have been obtained to estimate the graphene thermal conductivi...
There has been increasing interest in thermal conductivity of materials motivated by the heat remova...
This paper envisages a mechanism of heat conduction behind the thermal conductivity enhancement obse...
With the integration and miniaturization of electronic devices, thermal management has become a cruc...
We theoretically and experimentally studied the thermal transport properties in various graphene-bas...
As a two-dimensional(2D) building block of new materials, graphene has received widespread attention...
The research includes the investigation of thermal Conductivity for Graphene nanocomposite. Nano gra...
Graphene exhibits extraordinary electronic and mechanical properties, and extremely high thermal con...