Add to ORKGDiamonds have substantial hardness and durability, but attempting to deform diamonds usually results in brittle fracture. We demonstrate ultralarge, fully reversible elastic deformation of nanoscale (similar to 300 nanometers) single-crystalline and polycrystalline diamond needles. For single-crystalline diamond, the maximum tensile strains (up to 9%) approached the theoretical elastic limit, and the corresponding maximum tensile stress reached similar to 89 to 98 gigapascals. After combining systematic computational simulations and characterization of pre- and postdeformation structural features, we ascribe the concurrent high strength and large elastic strain to the paucity of defects in the small-volume diamond nanoneedles and to the rel...
A combined experimental and numerical study on the variation of the elastic properties of defective ...
This letter reveals that unusual elasticity of nanocrystalline diamond is consistently explained by ...
Tetragonal sp3-bonded diamond has the highest known atomic density. The nature of the bond and its h...
Diamonds have substantial hardness and durability, but attempting to deform diamonds usually results...
Diamonds have substantial hardness and durability, but attempting to deform diamonds usually results...
As a potential building block for the next generation of devices/multifunctional materials that are ...
As a potential building block for the next generation of devices/multifunctional materials that are ...
As a potential building block for the next generation of devices/multifunctional materials that are ...
As a potential building block for the next generation of devices/multifunctional materials that are ...
Diamond is the stiffest known material. Here we report that nanopolycrystal diamond synthesized by d...
We introduce a computational approach to estimate the hardness and stiffness of diamond surfaces and...
The fundamental mechanisms of strengthening/hardening and toughening that may be modified by various...
As the hardest known material, diamond represents the benchmark for the ultimate strength of materia...
Aim of this paper is the estimation of the still unknown ultrananocrystalline diamond nanoscale stre...
A combined experimental and numerical study on the variation of the elastic properties of defective ...
A combined experimental and numerical study on the variation of the elastic properties of defective ...
This letter reveals that unusual elasticity of nanocrystalline diamond is consistently explained by ...
Tetragonal sp3-bonded diamond has the highest known atomic density. The nature of the bond and its h...
Diamonds have substantial hardness and durability, but attempting to deform diamonds usually results...
Diamonds have substantial hardness and durability, but attempting to deform diamonds usually results...
As a potential building block for the next generation of devices/multifunctional materials that are ...
As a potential building block for the next generation of devices/multifunctional materials that are ...
As a potential building block for the next generation of devices/multifunctional materials that are ...
As a potential building block for the next generation of devices/multifunctional materials that are ...
Diamond is the stiffest known material. Here we report that nanopolycrystal diamond synthesized by d...
We introduce a computational approach to estimate the hardness and stiffness of diamond surfaces and...
The fundamental mechanisms of strengthening/hardening and toughening that may be modified by various...
As the hardest known material, diamond represents the benchmark for the ultimate strength of materia...
Aim of this paper is the estimation of the still unknown ultrananocrystalline diamond nanoscale stre...
A combined experimental and numerical study on the variation of the elastic properties of defective ...
A combined experimental and numerical study on the variation of the elastic properties of defective ...
This letter reveals that unusual elasticity of nanocrystalline diamond is consistently explained by ...
Tetragonal sp3-bonded diamond has the highest known atomic density. The nature of the bond and its h...