Morphology and topochemical reactions of novel vanadium oxide nanotubes

Vanadium oxide nanotubes were obtained as the main product in a sol-gel rea ction followed by hydrothermal treatment from vanadium(V) alkoxide precurso rs and primary amines (CnH2n+1NH2 with 4 less than or equal to n less than or equal to 22) or alpha,omega-diamines (H2N[CH2](n)NH2 with 14 less than o r equal to n less than or equal to 20). The structure of the nanotubes has been characterized by transmission electron microscopy, X-ray powder diffra ction, X-ray photoelectron spectroscopy, and magnetic measurements. The tub es are up to 15 mu m long and have outer diameters ranging from 15 to 150 n m and inner diameters from 15 to 50 nm. The tube walls consist of 2-30 crys talline vanadium oxide layers with amine or diamine molecules intercalated in between. The distance between the layers (1.7-3.8 nm) is proportional to the length of the alkylamine, which acts as a structure-directing template . The structure within the layers has a square metric with a approximate to 0.61 nm. Cross-sectional TEM images demonstrate the predominance of serpen tine-like scrolls rather than of concentric tubes. The intercalated templat es can be easily substituted, e.g. by diamines, while the tubular morpholog y is preserved. This points to a highly flexible structure.