Add to ORKGThe transformation pathways of carbon at high pressures are of broad interest for synthesis of novel materials and for revealing the Earth's geological history. We have applied large plastic shear on graphite in a rotational anvil cell to form hexagonal diamond and nanocrystalline cubic diamond at extremely low pressures of 0.4 and 0.7 GPa, which are 50 and 100 times lower than the transformation pressures under hydrostatic compression and well below the phase equilibrium. Large shearing accompanied with pressure elevation to 3 GPa also leads to formation of a new orthorhombic diamond phase. Our results demonstrate new mechanisms and new means for plastic shear-controlled material synthesis at drastically reduced pressures, enabling new tec...
International audienceAbstract— We have studied the high-pressure, high-temperature behavior of adam...
We have conducted high pressure-high temperature (HPHT) diamond synthesis experiments at the conditi...
In this study, we present a number of experiments on the transformation of graphite, diamond, and mu...
The transformation pathways of carbon at high pressures are of broad interest for synthesis of novel...
The transformation pathways of carbon at high pressures are of broad interest for synthesis of novel...
Possible techniques for experimentally obtaining hexagonal diamond are studied in the scope of the ...
Natural diamonds that have been partially replaced by graphite have been observed to occur in natura...
Hexagonal diamond, a potentially superhard material, forms from a glassy carbon precursor at pressur...
Carbon exhibits a large number of allotropes and its phase behaviour is still subject to significant...
Diamond is an attractive material due to its extreme hardness, high thermal conductivity, quantum op...
We report herein ab initio molecular dynamics simulations of graphite under shock compression in con...
Carbon is the fourth most abundant element in the universe, commonly found in stars, comet...
Studying the dependence of the degree (α) and rate (ϑ) of the phase transformation of graphite into ...
Studies of materials’ properties at high and ultrahigh pressures lead to discoveries of unique physi...
The shock-induced transition from graphite to diamond has been of great scientific and technological...
International audienceAbstract— We have studied the high-pressure, high-temperature behavior of adam...
We have conducted high pressure-high temperature (HPHT) diamond synthesis experiments at the conditi...
In this study, we present a number of experiments on the transformation of graphite, diamond, and mu...
The transformation pathways of carbon at high pressures are of broad interest for synthesis of novel...
The transformation pathways of carbon at high pressures are of broad interest for synthesis of novel...
Possible techniques for experimentally obtaining hexagonal diamond are studied in the scope of the ...
Natural diamonds that have been partially replaced by graphite have been observed to occur in natura...
Hexagonal diamond, a potentially superhard material, forms from a glassy carbon precursor at pressur...
Carbon exhibits a large number of allotropes and its phase behaviour is still subject to significant...
Diamond is an attractive material due to its extreme hardness, high thermal conductivity, quantum op...
We report herein ab initio molecular dynamics simulations of graphite under shock compression in con...
Carbon is the fourth most abundant element in the universe, commonly found in stars, comet...
Studying the dependence of the degree (α) and rate (ϑ) of the phase transformation of graphite into ...
Studies of materials’ properties at high and ultrahigh pressures lead to discoveries of unique physi...
The shock-induced transition from graphite to diamond has been of great scientific and technological...
International audienceAbstract— We have studied the high-pressure, high-temperature behavior of adam...
We have conducted high pressure-high temperature (HPHT) diamond synthesis experiments at the conditi...
In this study, we present a number of experiments on the transformation of graphite, diamond, and mu...