Visible light photocatalytic reduction of water using SrSnO3 sensitized by CuFeO2

Bellal, B.; Hadjarab, B.; Bouguelia, A.; Trari, M.

doi:10.1007/s11237-009-9080-y

Cited by 38 publications

(14 citation statements)

References 16 publications

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“…The Cu-Cu length, equal to b-parameter, is longer than that in copper (0.127 nm) 1 and CuMnO 2 is expected to be SC. A large anisotropy is common in the crednerite, and the pellet consists of randomly oriented microcrystal.…”

Section: Resultsmentioning

confidence: 96%

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Photoelectrochemical characterization of the synthetic crednerite CuMnO2

et al. 2011

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High quality crednerite CuMnO 2 was prepared by solid state reaction at 950°C under argon flow. The oxide crystallizes in a monoclinically distorted delafossite structure associated to the static Jahn-Teller (J-T) effect of Mn 3? ion. Thermal analysis showed that it converts reversibly to spinel Cu x Mn 3-x O 4 at *420°C in air and further heating reform the crednerite above 940°C. CuMnO 2 is p-type, narrow semiconductor band gap with a direct optical gap of 1.31 eV. It exhibits a long-term chemical stability in basic medium (KOH 0.5 M), the semi logarithmic plot gave an exchange current density of 0.2 lA cm -2 and a corrosion potential of *-0.1 V SCE . The electrochemical oxygen insertion/desinsertion is evidenced from the intensity-potential characteristics. The flat band potential (V fb = -0.26 V SCE ) and the holes density (N A = 5.12 9 10 18 cm -3 ) were determined, respectively, by extrapolating the curve C -2 versus the potential to the intersection with C -2 = 0 and from the slope of the MottSchottky plot. From photoelectrochemical measurements, the valence band formed from Cu-3d wave function is positioned at 5.24 ± 0.02 eV below vacuum. The Nyquist representation shows straight line in the high frequency range with an angle of 65°ascribed to Warburg impedance originating from oxygen intercalation and compatible with a system under mass transfer control. The electrochemical junction is modeled by an equivalent electrical circuit thanks to the Randles model.

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Section: Resultsmentioning

confidence: 96%

“…The oxides are among the most stable materials for the water photo electrolysis [1,2]. However, their performances are limited by either a wide forbidden band (E g ) exceeding 3 eV or a large electron affinity, attributed to a low lying valence band (VB) deriving mainly from O 2-: 2p orbital [3].…”

Section: Introductionmentioning

confidence: 99%

Photoelectrochemical characterization of the synthetic crednerite CuMnO2

et al. 2011

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“…The other five papers displayed in Table IV use SrSnO 3 as a photocatalyst. Although doping was not used for this material, different co-catalysts were evaluated [15,44,46,50,52]. The morphology and the use of nanoparticles were also evaluated in [15,44,52] to improve the surface area and the photocatalytic efficiency.…”

Section: Literature Reviewmentioning

confidence: 99%

Alkaline earth stannates applied in photocatalysis: prospection and review of literature

et al. 2018

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The ABO 3 mixed oxide class known for its perovskite-like structure has aroused great scientific and technological interest in recent decades, due to its optical, magnetic and conductive properties. The objective of this work was to search the articles and patent databases for papers that relate the activity of the alkaline earth metal stannates -BaSnO 3 , CaSnO 3 and SrSnO 3 as photocatalysts for environmental application. The databases researched were the Web of Science, Scopus and Scielo for articles and USPTO, EPO and INPI for patent banks. From the exclusion criteria, 21 review articles presented different experimental parameters and conditions. Due to the excellent photocatalytic performance, the stannates presented as promising candidates in the heterogeneous photocatalysis. A description of the main papers published in literature is provided for an overview of the literature data about these materials.A classe de óxidos mistos ABO 3 conhecida por sua estrutura do tipo perovskita vêm despertando grande interesse científicotecnológico nas últimas décadas, em função de suas propriedades ópticas, magnéticas e condutoras. Este trabalho teve por objetivo buscar, nos bancos de artigos e de patentes, trabalhos que relacionem a atividade fotocatalítica dos estanatos de metais alcalinos terrosos -BaSnO 3 , CaSnO 3 e SrSnO 3 como fotocatalisadores para aplicação ambiental. Os bancos de dados pesquisados foram o Web of Science, Scopus e Scielo para os artigos e USPTO, EPO e INPI para os bancos de patentes. A partir dos critérios de exclusão, 21 artigos de revisão apresentaram parâmetros e condições experimentais distintas. Devido ao excelente desempenho fotocatalítico, os estanatos apresentam-se como candidatos promissores na fotocatálise heterogênea. Palavras-chave: estanatos, perovskita, fotocatálise. *ieda@quimica.ufpb.br

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“…10). Up to now SSO has only been used as a transparent conductive layer, when doped with La, Ba, [11][12][13] as an insulation barrier with a high dielectric constant in single flux quantum circuits 14 , and as a photoelectrochemical converter for the reduction of water 15 . a) Electronic mail: Matthias.Althammer@wmi.badw.…”

Section: Introductionmentioning

confidence: 99%

Investigation of the tunnel magnetoresistance in junctions with a strontium stannate barrier

Althammer

Singh

Keshavarz

et al. 2016

Journal of Applied Physics

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We experimentally investigate the structural, magnetic and electrical transport properties of La 0.67 Sr 0.33 MnO 3 based magnetic tunnel junctions with a SrSnO 3 barrier. Our results show that despite the large number of defects in the strontium stannate barrier, due to the large lattice mismatch, the observed tunnel magnetoresistance is comparable to tunnel junctions with a better lattice matched STiO 3 barrier, reaching values of up to 350 % at T = 5 K. Further analysis of the current-voltage characteristics of the junction and the bias voltage dependence of the observed tunnel magnetoresistance show a decrease of the TMR with increasing bias voltage. In addition, the observed TMR vanishes for T > 200 K. Our results suggest that by employing a better lattice matched ferromagnetic electrode and thus reducing the structural defects in the strontium stannate barrier even larger TMR ratios might be possible in the future.

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Visible light photocatalytic reduction of water using SrSnO3 sensitized by CuFeO2

Cited by 38 publications

References 16 publications

Photoelectrochemical characterization of the synthetic crednerite CuMnO2

Photoelectrochemical characterization of the synthetic crednerite CuMnO2

Alkaline earth stannates applied in photocatalysis: prospection and review of literature

Investigation of the tunnel magnetoresistance in junctions with a strontium stannate barrier

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