CsxWO3 nanorods: Realization of full-spectrum-responsive photocatalytic activities from UV, visible to near-infrared region

• Full-spectrum-driven photocatalytic activities match the utmost of solar energy.
• Realization of full-spectrum-responsive photocatalytic activities by single matter.
• Toward understanding the photocatalytic mechanism of CsxWO3 under NIR irradiation.

Effective utilization of solar energy in photocatalytic materials is one of most essential issues what the photochemists are very concerned all along. In this work, full-spectrum-response photocatalytic activities covering UV, visible and near infrared regions on degradation of methylene blue have been realized firstly on single matter of the mixed valence Cs0.32WO3 nanorod. As revealed by optical absorption results, advantages of Cs0.32WO3 nanorod used in this purpose originated from its high optical absorption in the whole solar spectrum of 300–2500 nm. Benefitting from this unique photo-absorption property, the photocatalytic property of CsxWO3 nanorod displayed a significant advance in fully utilization of all solar energy, especially for NIR part, which holds considerable percentage of sunlight but seldom is utilized up to now. The removal rates of MB on CsxWO3 nanorod were determined to be 72, 70 and 37% under 185 mw/cm2 UV, 166 mw/cm2 visible and 42.7 mW/cm2 NIR irradiation within the test duration, respectively. In addition, a plausible mechanism toward understanding the near-infrared driven photocatalytic activity on Cs0.32WO3 nanorod has been proposed on the basis of ESR results and polaron absorption theory.

Figure optionsDownload as PowerPoint slide