Physical and photo-electrochemical characterizations of α-Fe2O3. Application for hydrogen production |
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| Authors: | A Boudjemaa S Boumaza M Trari R Bouarab A Bouguelia |
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| Affiliation: | 1. Technical and Scientific Research Centre of Physical Analysis (CRAPC), BP 248, RP 16004 Algiers, Algeria;2. Laboratory of Chemistry of Natural Gas, Faculty of Chemistry (USTHB), BP 32, 16111 Algiers, Algeria;3. Laboratory of Storage and Valorization of Renewable Energies, Faculty of Chemistry (USTHB), BP 32, 16111 Algiers, Algeria |
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| Abstract: | The optical, electrical and photo-electrochemical properties of dense hematite α-Fe2O3 have been studied for the photo-catalytic hydrogen production. The band gap was evaluated at 1.96 eV from the diffuse reflectance spectrum and the transition is directly allowed; further indirect transition occurs at 2.04 eV. The oxygen deficiency permits the altering of the transport properties and the oxide exhibits n type behavior with activation energy of 0.11 eV. α-Fe2O3 is found to be photo-electrochemically active. The flat band potential Vfb (−0.51 VSCE) and the density ND (19.12 × 1019 cm−3) were obtained respectively by extrapolating the linear part to C−2 = 0 and the slope of the Mott–Schottky plot. The complex impedance pattern is circular in the high frequency region followed by a straight line in the low frequency one, a behavior attributed to the Warburg ionic diffusion. The conduction band edge (−0.62 VSCE) lies below the H2O/H2 level (−0.50 VSCE) and Fe2O3 offers the possibility to be used as hydrogen photocathode. The best activity was obtained in SO32− (0.5 M, pH 13.8) solution with a rate evolution of 6 ml (g catalyst)−1 min−1. |
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| Keywords: | Hematite α-Fe2O3 Photo catalytic Hydrogen Mott&ndash Schottky plot Complex independence |
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