Add to ORKGNanosized diamond particles in the interstellar space and in the Earth rocks related with water presence. In the paper proposed the model of the nanosized diamond particle formation from oxidized water-carbon dioxide gaseous mixtures
International audienceIn the upper mantle, diamonds can potentially grow from various forms of media...
Studies of thermal transformations of naphthalene (С10Н8), fluorographite (CF1.1) and octafluoronaph...
Mineralogical studies of deep-seated xenoliths and mineral inclusions in diamonds indicate that ther...
The model of nanosized diamond particles formation at metastable P-T parameters from fluid is presen...
The perspectives of nanosized diamond particles formation at metastable P-T parameters from organic ...
There are four main types of natural diamonds and related formation processes. The first type compri...
Nanometer-sized diamond grains are commonly found in primitive chondritic meteorites, but their orig...
Clusters of diamond-phase carbon, known as nanodiamonds, exhibit novel mechanical, optical and biolo...
Diamond formation in the Earth has been extensively discussed in recent years on the basis of geoche...
Nanometre-sized diamond has been found in meteorites, protoplanetary nebulae, and interstellar dust...
Technical developments in analytical methods that reach nanometer spatial resolution have enabled th...
The accumulation and circulation of carbon-hydrogen dictate the chemical evolution of ice giant plan...
My thesis puts forth new models for diamond formation that explain the difference between octahedral...
Diamond is an attractive material due to its extreme hardness, high thermal conductivity, quantum op...
The most recent advances in diamond science are reviewed, covering a variety of specific topics, suc...
International audienceIn the upper mantle, diamonds can potentially grow from various forms of media...
Studies of thermal transformations of naphthalene (С10Н8), fluorographite (CF1.1) and octafluoronaph...
Mineralogical studies of deep-seated xenoliths and mineral inclusions in diamonds indicate that ther...
The model of nanosized diamond particles formation at metastable P-T parameters from fluid is presen...
The perspectives of nanosized diamond particles formation at metastable P-T parameters from organic ...
There are four main types of natural diamonds and related formation processes. The first type compri...
Nanometer-sized diamond grains are commonly found in primitive chondritic meteorites, but their orig...
Clusters of diamond-phase carbon, known as nanodiamonds, exhibit novel mechanical, optical and biolo...
Diamond formation in the Earth has been extensively discussed in recent years on the basis of geoche...
Nanometre-sized diamond has been found in meteorites, protoplanetary nebulae, and interstellar dust...
Technical developments in analytical methods that reach nanometer spatial resolution have enabled th...
The accumulation and circulation of carbon-hydrogen dictate the chemical evolution of ice giant plan...
My thesis puts forth new models for diamond formation that explain the difference between octahedral...
Diamond is an attractive material due to its extreme hardness, high thermal conductivity, quantum op...
The most recent advances in diamond science are reviewed, covering a variety of specific topics, suc...
International audienceIn the upper mantle, diamonds can potentially grow from various forms of media...
Studies of thermal transformations of naphthalene (С10Н8), fluorographite (CF1.1) and octafluoronaph...
Mineralogical studies of deep-seated xenoliths and mineral inclusions in diamonds indicate that ther...