Single‐Crystalline Molybdenum Trioxide Nanoribbons: Photocatalytic, Photoconductive, and Electrochemical Properties

Molecular highways : A facile one‐step, surfactant‐free route was applied to produce high‐purity and uniform α‐MoO 3 nanoribbons (see figure), and their photocatalytic, photoconductive, and electrochemical properties were investigated. The results showed that the as‐prepared products had superior photo and electro properties.Large‐scale, high‐purity and uniform α‐MoO 3 nanoribbons have been synthesized by a facile hydrothermal route without employing surfactants or templates. The as‐prepared α‐MoO 3 nanoribbons were up to several micrometers in length, 100 nm in width, 15–20 nm in thickness, and grew along the [001] direction. The obtained nanoribbons exhibited a quantum size effect in optical properties, showing a blue shift of the band gap and direct transitions compared with the values of bulk MoO 3 . The nanoribbons also showed superior photocatalytic ability in the photodegradation reaction of an aqueous solution of Rhodamine B under visible light. Furthermore, the as‐prepared α‐MoO 3 materials exhibited linear current–voltage ( I – V ) characteristics and excellent photoresponse. As the light source was switched on and off, the currents could be reversibly switched between high and low value at the voltage of 0.1 V. Electrochemical measurements predicted that the α‐MoO 3 /carbon fiber modified microelectrode would display excellent electrochemical characters and high sensitivity toward neurotransmitter dopamine. The modified electrode was also quite stable and had good reproducibility, which might have application in the electrochemical analysis.