Controlled Growth of SnO2 Hierarchical Nanostructures by a Multistep Thermal Vapor Deposition Process

Abstract

Branched and sub-branched SnO₂ hierarchical architectures in which numerous aligned nanowires grew on the surface of nanobelt substrates have been obtained by a multistep thermal vapor deposition route. Branch size and morphology can be controlled by adjusting the temperature and duration of growth. The same approach was used to grow branched ZnO–SnO₂ heterojunction nanostructures. In addition, the third level of SnO₂ nanostructures was obtained by repeating the vapor deposition growth process. This technique provides a general, facile, and convenient approach for preparing even more complex nanoarchitectures, and should open up new opportunities for both fundamental research and applications, such as nanobelt-based three-dimensional nanodevices.