Room-temperature synthesis of single-crystalline Se nanorods with remarkable photocatalytic properties

We demonstrated for the first time that single-crystalline Se nanorods (NRs), prepared with a facile chemical reduction approach at room temperature, may display noticeable catalytic activities toward methylene blue degradation in dark environment after subjected to a short period of irradiation. Such capability of photocatalysis in the dark for Se NRs was attributed to the memory effect related to pre-irradiation treatment. The result of spin-trapping electron paramagnetic resonance measurement suggests that a sustained supply of OH radicals could be attained for Se NRs upon the cease of irradiation, which is accountable for the memory photocatalytic effect as revealed in the dark. As compared to the commercial P-25 TiO2 powder and Se nanoparticles, the as-synthesized Se NRs exhibited superior photocatalytic performance under UV illumination, demonstrating their potential as active photocatalysts in relevant redox reactions. Furthermore, the recycling test reveals that Se NRs could be promisingly utilized in the long-term course of photocatalysis. The present Se NRs may find potential use for unique photocatalytic applications, in which typical photocatalysis prevails under light illumination, while memory photocatalytic effect takes over when irradiation is interrupted.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Single-crystalline Se NRs were prepared with a facile chemical reduction approach. ► The dimensions of the resulting NRs can be readily controlled. ► A memory photocatalytic effect in dark environment was demonstrated for Se NRs. ► Se NRs exhibited superb photocatalytic efficiency under UV illumination. ► Recycling test reveals the reusability and stability for Se NRs in photocatalysis.