Vanadium-oxide nanotubes: Synthesis and template-related electrochemical properties

The electrochemistry of mixed-valent-containing vanadium-oxide nanotubes (VO_x-NTs) is first reported. Using dodecylamine and hexadecylamine as templates, two kinds of VO_x-NTs were synthesized and characterized. Both VO_x-NTs contain V₂O₃, VO₂ and V₂O₅ species. Dodecylamine-templated VO_x-NTs (C₁₂-VO_x-NTs) are much more stable than hexadecylamine-templated VO_x-NTs (C₁₆-VO_x-NTs). C₁₂-VO_x-NTs demonstrate stable redox behavior at ∼−0.2 V, which is arising from the electrochemical transfer between V(III) and V(IV), whereas C₁₆-VO_x-NTs exhibit unstable and weak redox peaks. In both cases, the reduction reaction of V(V)–V(IV) is never observed. The oxidation peak for V(IV) appeared only after a relatively long time immersion, suggesting that some small molecules such as water intercalate into the layered nanostructures before the electrochemical reaction. The difference may be an origin of the different template-induced the electroactivity of vanadium-oxide species in the nanotube-microenvironment.