In the pursuit of materials with exceptional mechanical properties, a machine-learning model is developed to direct the synthetic efforts toward compounds with high hardness by predicting the elastic moduli as a proxy. This approach screens 118 287 compounds compiled in crystal structure databases for the materials with the highest bulk and shear moduli determined by support vector machine regression. Following these models, a ternary rhenium tungsten carbide and a quaternary molybdenum tungsten borocarbide are selected and synthesized at ambient pressure. High-pressure diamond anvil cell measurements corroborate the machine-learning prediction of the bulk modulus with less than 10% error, as well as confirm the ultraincompressible nature o...
International audienceReports published in the last 25 years on the synthesis of carbon-based materi...
Hard and superhard materials play a vital role in numerous industrial applications necessary for sus...
The search for superhard materials is motivated by technical applications under extreme conditions. ...
Ultrahard materials are an essential component in a wide range of industrial applications. In this w...
Hard and superhard materials are essential for a myriad of scientific, biomedical, and industrial ap...
The computational prediction of superhard materials would enable the in silico design of compounds t...
Abstract The search for new superhard materials is of great interest for extreme industrial applicat...
High-modulus materials that yield small elastic deformation under mechanical loads hold great promis...
A set of universal descriptors which combines atomic properties with crystal fingerprint are present...
Hardness, or the quantitative value of resistance to permanent or plastic deformation, plays a very ...
Materials scientists increasingly employ machine or statistical learning (SL) techniques to accelera...
An empirical model and an ab initio calculation of the bulk moduli for covalent solids are used to s...
In material science, experiments and high-throughput models often consume a large amount of calendar...
International audienceIntrinsic character of correlation between hardness and thermodynamic properti...
The bulk and shear moduli of dense polycrystalline oxygen-bearing c-Zr3N4 were determined to be B0 =...
International audienceReports published in the last 25 years on the synthesis of carbon-based materi...
Hard and superhard materials play a vital role in numerous industrial applications necessary for sus...
The search for superhard materials is motivated by technical applications under extreme conditions. ...
Ultrahard materials are an essential component in a wide range of industrial applications. In this w...
Hard and superhard materials are essential for a myriad of scientific, biomedical, and industrial ap...
The computational prediction of superhard materials would enable the in silico design of compounds t...
Abstract The search for new superhard materials is of great interest for extreme industrial applicat...
High-modulus materials that yield small elastic deformation under mechanical loads hold great promis...
A set of universal descriptors which combines atomic properties with crystal fingerprint are present...
Hardness, or the quantitative value of resistance to permanent or plastic deformation, plays a very ...
Materials scientists increasingly employ machine or statistical learning (SL) techniques to accelera...
An empirical model and an ab initio calculation of the bulk moduli for covalent solids are used to s...
In material science, experiments and high-throughput models often consume a large amount of calendar...
International audienceIntrinsic character of correlation between hardness and thermodynamic properti...
The bulk and shear moduli of dense polycrystalline oxygen-bearing c-Zr3N4 were determined to be B0 =...
International audienceReports published in the last 25 years on the synthesis of carbon-based materi...
Hard and superhard materials play a vital role in numerous industrial applications necessary for sus...
The search for superhard materials is motivated by technical applications under extreme conditions. ...