Morphology dependence of radial elasticity in multiwalled boron nitride nanotubes

Abstract

We report on the measurement of the effective radial modulus of multiwalled Boron Nitride nanotubes with external radii in the range 3.7 to 36 nm and number of layers in between 5 and 48. These Boron Nitride nanotubes are radially much stiffer than previously reported thinner and smaller Boron Nitride nanotubes. Here, we show the key role of the morphology of the nanotubes in determining their radial rigidity, in particular we find that the external and internal radii, Rext and Rint, have a stronger influence on the radial modulus than the NT's thickness, t. We find that the effective radial modulus decreases nonlinearly with 1/Rext until reaching, for a large number of layers and a large radius, the transverse elastic modulus of bulk hexagonal-Boron Nitride.