Abstract

Tungsten oxide is one of the most important transition metal oxide materials, which possesses some unique properties such as electrochromic, optochromic, and gaschromic properties. In this paper, we report a simple method for synthesizing high quantity tungsten oxide nanoribbons by oxidizing a tungsten plate under moist conditions. Using potassium iodide as the catalyst, tungsten oxide nanoribbons with a thickness of 40-100 nm, width up to 1 νm and length up to hundreds of micrometres are obtained on a large scale. The morphology, composition and crystal structure of the nanoribbons are characterized by various methods, such as scanning electron microscopy, transmission electron microscopy and x-ray diffraction. The nanoribbons comprise mainly monoclinic tungsten trioxide (WO 3) growing along the [001] direction and the orthorhombic WO 3(H 2O) 0.33. The measured lattice parameters are β ≤ 89.93°, a ≤ 0.7274 nm, b ≤ 0.7501 nm, c ≤ 0.3824 nm for WO 3 and a ≤ 0.7359 nm, b ≤ 1.251 nm, c ≤ 0.7704 nm for WO 3(H 2O) 0.33, respectively. © 2005 IOP Publishing Ltd.