Physical and photoelectrochemical characterizations of the pyrochlore La1.9Ba0.1Sn2O7: Application to chromate reduction under solar light
Autor: | Yassine Bessekhouad, Mohamed Trari, G. Rekhila, R. Brahimi |
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Rok vydání: | 2017 |
Předmět: |
010302 applied physics
Chromate conversion coating Constant phase element Chemistry General Chemical Engineering Pyrochlore Analytical chemistry General Physics and Astronomy Mineralogy 02 engineering and technology General Chemistry Activation energy Conductivity engineering.material 021001 nanoscience & nanotechnology 01 natural sciences Electrical resistivity and conductivity 0103 physical sciences engineering Nyquist plot 0210 nano-technology Surface states |
Zdroj: | Journal of Photochemistry and Photobiology A: Chemistry. 332:345-350 |
ISSN: | 1010-6030 |
Popis: | The substituted pyrochlore La 1.9 Ba 0.1 Sn 2 O 7 was prepared by nitrate route and the physical and electrochemical characterizations were investigated. The optical gap is found to be 3.01 eV and the conductivity is characteristic of a semiconducting behavior with activation energy of 0.42 eV. The conduction band of La 1.9 Ba 0.1 Sn 2 O 7 (−2.64 V SCE ), predicted from electro negativities of the constituent atoms, is close to that determined experimentally (−2.99 V SCE ). The capacitance measurement (C −2 –V) exhibits a linear behavior, characteristic of p type conductivity, from which a flat band potential of −0.05 V SCE and hole density N D of 8.42 × 10 14 cm −3 were determined, in agreement with the small electrical conductivity (σ 300K ∼3 × 10 −6 Ω −1 cm −1 ). The Nyquist plot showed a semicircle which is a contribution of capacitance and resistance in parallel. A bulk resistance contribution (R b = 71 kΩ cm 2 ) and a low density of surface states are observed. The center of the arc is localized below the real axis with a depletion angle of 14° ascribed to a constant phase element (CPE). As application, chromate was successfully converted to Cr 3+ on the pyrochlore under sunlight. ∼1 h was necessary to reach the adsorption equilibrium for an initial chromate concentration of 10 −4 M. The conduction band is more cathodic than the potential of HCrO 4 − which is spontaneously reduced under solar light. The best performance is obtained at pH ∼ 3 with a catalyst dose of 1 mg/mL. 40% of chromate disappears with a quantum yield of 0.53% in less than 2 h. The process obeys to a first order kinetic with an apparent rate constant of 2.3 × 10 −3 min −1 . |
Databáze: | OpenAIRE |
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