Step junctions are often present in layered materials, i.e. where single-layer regions meet multilayer regions, yet their effect on thermal transport is not understood to date. Here, we measure heat flow across graphene junctions (GJs) from monolayer-to-bilayer graphene, as well as bilayer to four-layer graphene for the first time, in both heat flow directions. The thermal conductance of the monolayer-bilayer GJ ranges from ∼0.5 to 9.1 × 108 W m-2 K-1 between 50 K to 300 K. Atomistic simulations of such a GJ device reveal that graphene layers are relatively decoupled, and the low thermal conductance of the device is determined by the resistance between the two distinct graphene layers. In these conditions the junction plays a negligible eff...
Graphene has been actively investigated because its unique structural, electronic, and thermal prope...
Efficient thermal management of modern electronics requires the use of thin films with highly anisot...
In the sample size domain so far explored, the thermal conductivity of graphene shows an intriguing ...
Step junctions are often present in layered materials, i.e. where single-layer regions meet multilay...
By using molecular dynamics simulations, we have studied heat flux in graphene Y junctions with leng...
The rapid advance in modern electronics and photonics is pushing device design to the micro- and nan...
Carbon nanotubes and graphene are promising for thermal management applications due to their high th...
We theoretically and experimentally studied the thermal transport properties in various graphene-bas...
We report the study of the thermal transport management of monolayer graphene allotrope nanoribbons ...
Graphene exhibits extraordinary electronic and mechanical properties, and extremely high thermal con...
We use nonequilibrium molecular dynamics to study heat transfer across structures consisting of a fe...
Heat conduction in nanomaterials is an important area of study, with both fundamental and technologi...
As the electronic industry aggressively moves towards nanometer designs thermal issues are becoming ...
Graphene exhibits extraordinary electronic and mechanical properties, and extremely high thermal con...
Layering two-dimensional van der Waals materials provides a high degree of control over atomic place...
Graphene has been actively investigated because its unique structural, electronic, and thermal prope...
Efficient thermal management of modern electronics requires the use of thin films with highly anisot...
In the sample size domain so far explored, the thermal conductivity of graphene shows an intriguing ...
Step junctions are often present in layered materials, i.e. where single-layer regions meet multilay...
By using molecular dynamics simulations, we have studied heat flux in graphene Y junctions with leng...
The rapid advance in modern electronics and photonics is pushing device design to the micro- and nan...
Carbon nanotubes and graphene are promising for thermal management applications due to their high th...
We theoretically and experimentally studied the thermal transport properties in various graphene-bas...
We report the study of the thermal transport management of monolayer graphene allotrope nanoribbons ...
Graphene exhibits extraordinary electronic and mechanical properties, and extremely high thermal con...
We use nonequilibrium molecular dynamics to study heat transfer across structures consisting of a fe...
Heat conduction in nanomaterials is an important area of study, with both fundamental and technologi...
As the electronic industry aggressively moves towards nanometer designs thermal issues are becoming ...
Graphene exhibits extraordinary electronic and mechanical properties, and extremely high thermal con...
Layering two-dimensional van der Waals materials provides a high degree of control over atomic place...
Graphene has been actively investigated because its unique structural, electronic, and thermal prope...
Efficient thermal management of modern electronics requires the use of thin films with highly anisot...
In the sample size domain so far explored, the thermal conductivity of graphene shows an intriguing ...
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