High-modulus materials that yield small elastic deformation under mechanical loads hold great promise for use in a wide range of engineering applications. However, the discovery and understanding of high-modulus materials remain a long-term challenge, as the traditional experimental trial-and-error approach is time-consuming. In this work, we discovered two new ultrahigh-modulus crystals (CN2 and OsN2), exhibiting a maximum Young's modulus (1555.3 and 1382.7 GPa, respectively) greater than that of diamond (1152.0 GPa in our calculations), by data mining of 13 122 crystals and first-principles verifications. More surprisingly, the density of CN2 is lower than that of diamond, which endows it with high modulus and light weight. Furthermore, w...
The current emphasis of crystal engineering, which has evolved over the past three decades through c...
The recent discovery of quaternary MAX phases with chemical in-plane order allowed the addition of n...
The prediction of the structure of a crystal given only the constituent elements is one of the great...
In the pursuit of materials with exceptional mechanical properties, a machine-learning model is deve...
In order to better understand the mechanical properties of crystalline materials, we performed a lar...
Hard and superhard materials are essential for a myriad of scientific, biomedical, and industrial ap...
Ultrahard materials are an essential component in a wide range of industrial applications. In this w...
In this study, we report a comprehensive assessment on the elastic and electronic properties of 792 ...
Mechanical and thermal properties of materials are extremely important for various engineering and s...
The need for wear- and scratch-resistant materials drives the quest for new superhard materials. In ...
International audienceReports published in the last 25 years on the synthesis of carbon-based materi...
A set of universal descriptors which combines atomic properties with crystal fingerprint are present...
The extreme values of Young’s modulus for rhombic (orthorhombic) crystals using the necessary and su...
Tetragonal sp3-bonded diamond has the highest known atomic density. The nature of the bond and its h...
Recent discovery of perfect two-dimensional crystals [1] revealed a new way for obtaining the strong...
The current emphasis of crystal engineering, which has evolved over the past three decades through c...
The recent discovery of quaternary MAX phases with chemical in-plane order allowed the addition of n...
The prediction of the structure of a crystal given only the constituent elements is one of the great...
In the pursuit of materials with exceptional mechanical properties, a machine-learning model is deve...
In order to better understand the mechanical properties of crystalline materials, we performed a lar...
Hard and superhard materials are essential for a myriad of scientific, biomedical, and industrial ap...
Ultrahard materials are an essential component in a wide range of industrial applications. In this w...
In this study, we report a comprehensive assessment on the elastic and electronic properties of 792 ...
Mechanical and thermal properties of materials are extremely important for various engineering and s...
The need for wear- and scratch-resistant materials drives the quest for new superhard materials. In ...
International audienceReports published in the last 25 years on the synthesis of carbon-based materi...
A set of universal descriptors which combines atomic properties with crystal fingerprint are present...
The extreme values of Young’s modulus for rhombic (orthorhombic) crystals using the necessary and su...
Tetragonal sp3-bonded diamond has the highest known atomic density. The nature of the bond and its h...
Recent discovery of perfect two-dimensional crystals [1] revealed a new way for obtaining the strong...
The current emphasis of crystal engineering, which has evolved over the past three decades through c...
The recent discovery of quaternary MAX phases with chemical in-plane order allowed the addition of n...
The prediction of the structure of a crystal given only the constituent elements is one of the great...