Recent progress in the research on silicon nanowires and silicon nanotubes is reviewed,and the research will be done is suggested.

The structure and stability of silicon nanotubes(SiNTs) are simulated based on the tight-binding molecular dynamics with transferability.

Silicon nanowires and silicon nanotubes are two kinds of important one-dimensional silicon nanomaterials exhibiting a potential application prospect in the optoelectronic field owing to the quantum confinement effect.

A new kind of hollow one-dimensional nanometer structure,silicon nanotubes (SiNTs),is synthesized by the hydrothermal method.

The theory research development on hydrogen storage,thermal stability,quantum confinement behaviour and tensile properties of silicon nanotubes is discussed.

The SBR/silicoalumina nanotubes(SANTs) composites were prepared by directly blending method,filler pre-treatment method,in-situ modification dispersion method and emulsion blending method respectively,and their structure and properties were characterized.

First-principles study of the electonic structure of nitrogen-doped silicon carbide nanotubes

In this paper,we perform density functional calculations for the geometric structures and strain energy of silicon carbide nanotubes.

By employing density-functional theory calculation, the electronic structure,orbitals and optical properties of armchair silicon carbide nanotubes (SiCNT) are discussed in this paper.