Hongti Zhang scite author profile

Diamonds have substantial hardness and durability, but attempting to deform diamonds usually results in brittle fracture. We demonstrate ultralarge, fully reversible elastic deformation of nanoscale (~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 ~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 relatively smooth surfaces compared with those of microscale and larger specimens. The discovery offers the potential for new applications through optimized design of diamond nanostructure, geometry, elastic strains, and physical properties.

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Approaching the ideal elastic strain limit in silicon nanowires

Zhang

Tersoff²,

et al. 2016

Sci. Adv.

199

117

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A glucose-responsive controlled release of insulin system based on enzyme multilayers-coated mesoporous silica particles

et al. 2011

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Hongti Zhang

Efficient CdSe quantum dot-sensitized solar cells prepared by a postsynthesis assembly approach

Ultralarge elastic deformation of nanoscale diamond

Approaching the ideal elastic strain limit in silicon nanowires

A glucose-responsive controlled release of insulin system based on enzyme multilayers-coated mesoporous silica particles

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