Matthew Barnett scite author profile

Atomically thin boron nitride (BN) nanosheets are important two-dimensional nanomaterials with many unique properties distinct from those of graphene, but investigation into their mechanical properties remains incomplete. Here we report that high-quality single-crystalline mono- and few-layer BN nanosheets are one of the strongest electrically insulating materials. More intriguingly, few-layer BN shows mechanical behaviours quite different from those of few-layer graphene under indentation. In striking contrast to graphene, whose strength decreases by more than 30% when the number of layers increases from 1 to 8, the mechanical strength of BN nanosheets is not sensitive to increasing thickness. We attribute this difference to the distinct interlayer interactions and hence sliding tendencies in these two materials under indentation. The significantly better interlayer integrity of BN nanosheets makes them a more attractive candidate than graphene for several applications, for example, as mechanical reinforcements.

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Influence of grain size on the compressive deformation of wrought Mg–3Al–1Zn

Barnett¹,

Keshavarz²,

Beer³

et al. 2004

Acta Materialia

1,199

449

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The origin of “rare earth” texture development in extruded Mg-based alloys and its effect on tensile ductility

Stanford

Barnett

2008

Materials Science and Engineering: A

736

296

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Twinning and the ductility of magnesium alloys

Barnett

2007

Materials Science and Engineering: A

1,141

237

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Twinning and the ductility of magnesium alloys

Barnett

2007

Materials Science and Engineering: A

940

154

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Matthew Barnett

Mechanical properties of atomically thin boron nitride and the role of interlayer interactions

Influence of grain size on the compressive deformation of wrought Mg–3Al–1Zn

The origin of “rare earth” texture development in extruded Mg-based alloys and its effect on tensile ductility

Twinning and the ductility of magnesium alloys

Twinning and the ductility of magnesium alloys

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