A Catalyzed-Growth Route to Directly Form Micropatterned WO2 and WO3 Nanowire Arrays with Excellent Field Emission Behaviors at Low Temperature

By adjusting the type of catalysts, the controlled growth of micropatterned WO2 and WO3 nanowire arrays has been first accomplished at low temperature (450-600 degrees C) The as-prepared WO2 and WO3 nanowires are pi oven to be single crystalline structures with a single phase by Raman and transmission electron microscopy (TEM) techniques Their formation mechanisms are attributed to the vapor-liquid-solid (VLS) mechanism It is found that both micropatterned WO2 and WO3 nanowire arrays have very excellent field emission (FE) properties with quite low turn-on field (1 36 V/mu m) and threshold field (2 38 V/mu m), which is very similar to carbon nanotubes (CNTs) with best FE behaviors In addition, the physical properties of an individual WO2 and individual WO3 nanowire are compared to probe the determinant factor for their different FE behaviors and understand their FE mechanism Their very excellent FE performance suggests that this novel growth method is a useful technique for low-temperature preparation of micropatterned nanoemitter cathode arrays