TiO2-based powder materials have been widely studied as efficient photocatalysts for water splitting due to their low cost, photo-responsivity, earthly abundance, chemical and thermal stability, etc. In particular, the recent breakthrough of nitrogen-doped TiO2, which enhances the presence of structural defects and dopant impurities at elevated temperatures, exhibits an impressive visible-light absorption for photocatalytic activity. Although their electronic and optical properties have been extensively studied, the structure-activity relationship and photocatalytic mechanism remain ambiguous. Herein, we report an in-depth structural study of rutile, anatase and mixed phases (commercial P25) with and without nitrogen-doping by variable-temperature synchrotron X-ray powder diffraction. We report that an unusual anisotropic thermal expansion of the anatase phase can reveal the intimate relationship between sub-surface oxygen vacancies, nitrogen-doping level and photocatalytic activity. For highly doped anatase, a new cubic titanium oxynitride phase is also identified which provides important information on the fundamental shift in absorption wavelength, leading to excellent photocatalysis using visible light.
TiO2-based powder materials have been widely studied as efficient photocatalysts for n class="Chemical">water splitting due to their low cost, photo-responsivity, earthly abundance, chemical and thermal stability, etc. In particular, the recent breakthrough of nitrogen-dopedTiO2, which enhances the presence of structural defects and dopant impurities at elevated temperatures, exhibits an impressive visible-light absorption for photocatalytic activity. Although their electronic and optical properties have been extensively studied, the structure-activity relationship and photocatalytic mechanism remain ambiguous. Herein, we report an in-depth structural study of rutile, anatase and mixed phases (commercial P25) with and without nitrogen-doping by variable-temperature synchrotron X-ray powder diffraction. We report that an unusual anisotropic thermal expansion of the anatase phase can reveal the intimate relationship between sub-surface oxygen vacancies, nitrogen-doping level and photocatalytic activity. For highly doped anatase, a new cubic titanium oxynitride phase is also identified which provides important information on the fundamental shift in absorption wavelength, leading to excellent photocatalysis using visible light.
Authors: N A Dubrovinskaia; L S Dubrovinsky; R Ahuja; V B Prokopenko; V Dmitriev; H P Weber; J M Osorio-Guillen; B Johansson Journal: Phys Rev Lett Date: 2001-12-07 Impact factor: 9.161
Authors: H Hussain; G Tocci; T Woolcot; X Torrelles; C L Pang; D S Humphrey; C M Yim; D C Grinter; G Cabailh; O Bikondoa; R Lindsay; J Zegenhagen; A Michaelides; G Thornton Journal: Nat Mater Date: 2016-11-14 Impact factor: 43.841
Authors: L S Dubrovinsky; N A Dubrovinskaia; V Swamy; J Muscat; N M Harrison; R Ahuja; B Holm; B Johansson Journal: Nature Date: 2001-04-05 Impact factor: 49.962
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