Heat transport studies are a powerful tool to obtain information about both the phononic and electronic properties of materials. Graphene is a two-dimensional crystal (1-atom thick) where electrons behave relativistically, and which has tremendous potential for short-term technological applications. We measure the heat conductivity of graphene, and aim to gather fundamental information about its phonon modes and their coupling to its Dirac fermions (electrons or holes). Our measurements can also assess the potential of graphene for technological applications such as heat management in nanodevices. We report the first detailed measurements of heat conductivity, κ, and electron mobility, of graphene versus temperature (6K - 350K) and...
In the perspective of manipulating and controlling heat fluxes, graphene represents a promising mat...
Graphene exhibits extraordinary electronic and mechanical properties, and extremely high thermal con...
Graphene has displayed much promise as an electrical conductor and as a optical material. To date t...
The electronic material graphene has attracted much attention for its unique physical properties suc...
The electronic material graphene has attracted much attention for its unique physical properties suc...
The electronic thermal conductivity in graphene describes how energy is transported by the charge ca...
Graphene, a single atomic layer of graphite, has emerged as one of the most attractive materials in ...
Thermal properties of graphene and graphite have been investigated by employing the analytical expre...
Graphene has been actively investigated because its unique structural, electronic, and thermal prope...
In the perspective of manipulating and controlling heat fluxes, graphene represents a promising mat...
Graphene has been actively investigated because its unique structural, electronic, and thermal prope...
In the perspective of manipulating and controlling heat fluxes, graphene represents a promising mat...
The unique combination of mechanical, electrical, and thermal properties of graphite and its derivat...
The incorporation of graphitic compounds such as carbon nanotubes (CNTs) and graphene into nano-elec...
The electronic thermal conductivity of graphene and two-dimensional Dirac materials is of fundamenta...
In the perspective of manipulating and controlling heat fluxes, graphene represents a promising mat...
Graphene exhibits extraordinary electronic and mechanical properties, and extremely high thermal con...
Graphene has displayed much promise as an electrical conductor and as a optical material. To date t...
The electronic material graphene has attracted much attention for its unique physical properties suc...
The electronic material graphene has attracted much attention for its unique physical properties suc...
The electronic thermal conductivity in graphene describes how energy is transported by the charge ca...
Graphene, a single atomic layer of graphite, has emerged as one of the most attractive materials in ...
Thermal properties of graphene and graphite have been investigated by employing the analytical expre...
Graphene has been actively investigated because its unique structural, electronic, and thermal prope...
In the perspective of manipulating and controlling heat fluxes, graphene represents a promising mat...
Graphene has been actively investigated because its unique structural, electronic, and thermal prope...
In the perspective of manipulating and controlling heat fluxes, graphene represents a promising mat...
The unique combination of mechanical, electrical, and thermal properties of graphite and its derivat...
The incorporation of graphitic compounds such as carbon nanotubes (CNTs) and graphene into nano-elec...
The electronic thermal conductivity of graphene and two-dimensional Dirac materials is of fundamenta...
In the perspective of manipulating and controlling heat fluxes, graphene represents a promising mat...
Graphene exhibits extraordinary electronic and mechanical properties, and extremely high thermal con...
Graphene has displayed much promise as an electrical conductor and as a optical material. To date t...