Photocatalytic evolution of H2 over visible-light active LaMO3 (M: Co, Mn, Fe) perovskite materials: Roles of oxygenated species in catalytic performance

Photocatalytic evolution of H2 over visible-light active LaMO3 (M: Co, Mn, Fe) perovskite materials: Roles of oxygenated species in catalytic performance

In this study, LaMO3 (M: Co, Mn, Fe) perovskite-based photocatalysts were synthesized using sol–gel and solid state methods. The activities of the perovskites as catalysts in the generation of H2 by water splitting were tested under simulated solar irradiation without sacrificial agents. The perovsk...

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Bibliographic Details
Published in:The Journal of physics and chemistry of solids Vol. 136; p. 109189
Main Authors: Ibarra-Rodriguez, Luz I., Huerta-Flores, Ali M., Mora-Hernandez, J.M., Torres-Martínez, Leticia M.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-01-2020
Subjects:
Carbonated species
Hydrogen production
Lanthanum-based perovskite
Photocatalytic sol–gel reaction
Solid state reaction
Carbonated species
Lanthanum-based perovskite
Photocatalytic sol–gel reaction
Solid state reaction
Hydrogen production
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Summary:In this study, LaMO3 (M: Co, Mn, Fe) perovskite-based photocatalysts were synthesized using sol–gel and solid state methods. The activities of the perovskites as catalysts in the generation of H2 by water splitting were tested under simulated solar irradiation without sacrificial agents. The perovskites synthesized via the sol–gel route exhibited superior activities compared with those produced by the solid state reaction. The highest activity was obtained by LaMnO3 synthesized via the sol–gel route (103 μmol g−1 h−1) and the lowest by LaFeO3 produced in the solid state reaction (17 μmol g−1 h−1). The superior performance of LaMnO3 synthesized by the sol–gel route was attributed to its high surface area, smaller particle size, and the major currents detected by cyclic voltammetry related to the redox transitions of Mn+n ions exposed over the surface, which generated partial charges on the surface of the material, thereby increasing the active sites and the adsorption of water molecules to facilitate the reduction of H+/H2. Fourier transform-infrared and X-ray photoelectron spectroscopy analyses demonstrated that the lanthanum-based perovskites exhibited a high affinity for the adsorption of several oxygenated species, which reduced the catalytic activity due to the competition with water molecules. Pretreatment of the photocatalyst by degasification in a vacuum at 300 °C was tested as an efficient alternative for reducing the adsorption of these species. Our results demonstrated that pretreatment of the LaMnO3 perovskites increased their activity by up to 1.4 times. [Display omitted] •Perovskites prepared by sol–gel route exhibited higher hydrogen evolution.•LaMnO3 prepared by sol–gel route produced most H2 (103 μmol g−1 h−1).•Surface area main parameter that determined hydrogen evolution.•Oxygenated adsorbed species negatively affected role hydrogen evolution.•Efficient degasification pretreatment enhanced H2 production.
ISSN:0022-3697
1879-2553
DOI:10.1016/j.jpcs.2019.109189