Add to ORKGThe search for new nanostructural topologies composed of elemental carbon is driven by technological opportunities as well as the need to understand the structure and evolution of carbon materials formed by planetary shock impact events and in laboratory syntheses. We describe two new families of diamond-graphene (diaphite) phases constructed from layered and bonded sp^{3} and sp^{2} nanostructural units and provide a framework for classifying the members of this new class of materials. The nanocomposite structures are identified within both natural impact diamonds and laboratory-shocked samples and possess diffraction features that have previously been assigned to lonsdaleite and postgraphite phases. The diaphite nanocomposites represent a...
We studied how multilayer graphene can undergo transformation into sp3 structure by using density fu...
The shock-induced transition from graphite to diamond has been of great scientific and technological...
We show, by means of molecular dynamics simulations, that the transformation from diamond to amorpho...
The search for new nanostructural topologies composed of elemental carbon is driven by technological...
Studies of dense carbon materials formed by bolide impacts or produced by laboratory compression pro...
Shock waves resulting from asteroidal and laboratory impacts convert sp 2 -bonded graphitic material...
Carbon is the fourth most abundant element in the solar system, which can exist in diverse polymorph...
Diamond is an attractive material due to its extreme hardness, high thermal conductivity, quantum op...
Graphene-based metamaterials are engineered two-dimensional (2D) carbon-based materials characterize...
International audienceWhile graphene has held the center stage in nanocarbon material research since...
Carbon exhibits a large number of allotropes and its phase behaviour is still subject to significant...
Carbon nanomaterials with a different character of the chemical bond—graphene (sp2) and nanodiamond ...
Feasibility of designing composites from carbon nanotubes and nanodiamond clusters is discussed base...
Diamond nanothreads are a new type of low-dimensional sp3-bonded carbon nanostructure combining high...
As a potential building block for the next generation of devices/multifunctional materials that are ...
We studied how multilayer graphene can undergo transformation into sp3 structure by using density fu...
The shock-induced transition from graphite to diamond has been of great scientific and technological...
We show, by means of molecular dynamics simulations, that the transformation from diamond to amorpho...
The search for new nanostructural topologies composed of elemental carbon is driven by technological...
Studies of dense carbon materials formed by bolide impacts or produced by laboratory compression pro...
Shock waves resulting from asteroidal and laboratory impacts convert sp 2 -bonded graphitic material...
Carbon is the fourth most abundant element in the solar system, which can exist in diverse polymorph...
Diamond is an attractive material due to its extreme hardness, high thermal conductivity, quantum op...
Graphene-based metamaterials are engineered two-dimensional (2D) carbon-based materials characterize...
International audienceWhile graphene has held the center stage in nanocarbon material research since...
Carbon exhibits a large number of allotropes and its phase behaviour is still subject to significant...
Carbon nanomaterials with a different character of the chemical bond—graphene (sp2) and nanodiamond ...
Feasibility of designing composites from carbon nanotubes and nanodiamond clusters is discussed base...
Diamond nanothreads are a new type of low-dimensional sp3-bonded carbon nanostructure combining high...
As a potential building block for the next generation of devices/multifunctional materials that are ...
We studied how multilayer graphene can undergo transformation into sp3 structure by using density fu...
The shock-induced transition from graphite to diamond has been of great scientific and technological...
We show, by means of molecular dynamics simulations, that the transformation from diamond to amorpho...