Background

In recent years, carbon nanotubes has attracted widespread attention to the researchers due to their unique physical and chemical properties. [1] Besides CNTs have been identified as the promising materials for flat-panel display and cold cathode application. [2] The excellent field emission characteristics of CNTs can be attributed to their high aspect ration and their outstanding chemical stability. [3] Chemical vapor deposition (CVD) has been intensively studied to synthesize CNTs on plain substrates to simplify the fabrication processes of CNT-based devices. [4] In the CVD growth, the catalyst control is one of the most important factors that determine the CNT properties such as length, diameters, and number density. Howerver systematic studies on the surface morphology and field emission characteristics of CNTs on silicon nanowires with different thickness of Ni catalyst layers by thermal CVD are still very rare. It seems to be crucial to the field emission characteristics of CNTs as their diameters. [5] In this study we grew CNTs on silicon nanowires with different thickness of Ni catalyst films and studied on the role of their effects on suface morphology and field emission characteristics.