Add to ORKGRecently, sophisticated theoretical computational studies have proposed several new crystal structures of carbon (e.g., bct-C4, H-, M-, R-, S-, W-, and Z-carbon). However, until now, there lacked experimental evidence to verify the predicted high-pressure structures for cold-compressed elemental carbon at least up to 50 GPa. Here we present direct experimental evidence that this enigmatic high-pressure structure is currently only consistent with M-carbon, one of the proposed carbon structures. Furthermore, we show that this phase transition is extremely sluggish, which led to the observed broad x-ray diffraction peaks in previous studies and hindered the proper identification of the post-graphite phase in cold-compressed carbon
The shock strength dependent formation of diamond represents one of the most intriguing questions in...
Studies of dense carbon materials formed by bolide impacts or produced by laboratory compression pro...
A body-centered tetragonal carbon (bct-Carbon) allotrope has been predicted to be a transparent carb...
Recently, sophisticated theoretical computational studies have proposed several new crystal structur...
Carbon is the fourth most abundant element in the universe, commonly found in stars, comet...
Room temperature compression of graphitic materials leads to interesting superhard sp3 rich phases w...
It is well established that graphite can be transformed into superhard carbons under cold compressio...
Numerous experiments showed that on cold compression graphite transforms into a new superhard and tr...
Carbon is the fourth most abundant element in the solar system, which can exist in diverse polymorph...
High-pressure structural transformations of carbon at terapascal pressures are studied using metadyn...
peer reviewedMolecular dynamics simulations show that graphite will transform into a superhard phase...
Carbon is an element with extremely versatile bonding properties and theoretical calculations have s...
As one of the longest-known forms of carbon, graphite has been extensively studied for several decad...
Although the transformation from fullerene bulk into various functional carbon materials at high tem...
The structure of the fluid carbon phase in the pressure region of the graphite, diamond, and BC8 sol...
The shock strength dependent formation of diamond represents one of the most intriguing questions in...
Studies of dense carbon materials formed by bolide impacts or produced by laboratory compression pro...
A body-centered tetragonal carbon (bct-Carbon) allotrope has been predicted to be a transparent carb...
Recently, sophisticated theoretical computational studies have proposed several new crystal structur...
Carbon is the fourth most abundant element in the universe, commonly found in stars, comet...
Room temperature compression of graphitic materials leads to interesting superhard sp3 rich phases w...
It is well established that graphite can be transformed into superhard carbons under cold compressio...
Numerous experiments showed that on cold compression graphite transforms into a new superhard and tr...
Carbon is the fourth most abundant element in the solar system, which can exist in diverse polymorph...
High-pressure structural transformations of carbon at terapascal pressures are studied using metadyn...
peer reviewedMolecular dynamics simulations show that graphite will transform into a superhard phase...
Carbon is an element with extremely versatile bonding properties and theoretical calculations have s...
As one of the longest-known forms of carbon, graphite has been extensively studied for several decad...
Although the transformation from fullerene bulk into various functional carbon materials at high tem...
The structure of the fluid carbon phase in the pressure region of the graphite, diamond, and BC8 sol...
The shock strength dependent formation of diamond represents one of the most intriguing questions in...
Studies of dense carbon materials formed by bolide impacts or produced by laboratory compression pro...
A body-centered tetragonal carbon (bct-Carbon) allotrope has been predicted to be a transparent carb...