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dc.contributor.authorFonseca Cervantes, Omar Ricardo-
dc.contributor.authorPérez Larios, Alejandro-
dc.contributor.authorRomero Arellano, Víctor Hugo-
dc.contributor.authorSulbarán Rangel, Belkis-
dc.contributor.authorGuzmán González, Carlos Alberto-
dc.identifier.citationFonseca-Cervantes, O.R.; Pérez-Larios, A.; Romero Arellano, V.H.; Sulbaran-Rangel, B.; Guzmán González, C.A. Effects in Band Gap for Photocatalysis in TiO2 Support by Adding Gold and Ruthenium. Processes 2020, 8, 1032., en
dc.descriptionArtículoes, en
dc.description.abstractAbstract One of the key features of a nano catalyst for photocatalysis is the band gap, because, through its analysis, the potential of the catalyst can be determined. In this investigation, the impact on the band gap of different catalysts made by the sol–gel method, compared with TiO2 P25 Sigma-Aldrich, showing the effect of using gold or ruthenium as a metal supported on TiO2, with two different dosage percentages of 1 and 3 percent, was analysed. Additionally, two oxidation states of the catalyst, the reduced form and the oxidized form of the metal, were used to see the effect on the band gap. The experiments show that the gold addition has a higher beneficial effect on the band gap for the UV region (ultra violet region), and the ruthenium addition has a higher beneficial effect for the UV/visible region. The preferred oxidation state for the band gap was the oxidized state. The characterisation of the catalyst provided an insight into the relation between the band gap and the catalyst, en
dc.language.isoenes, en
dc.publisherElsevieres, en
dc.relation.ispartofseriesProcesses;Vol. 8, (9):1032-
dc.subjectphotocatalysises, en
dc.subjectsol–gel methodes, en
dc.subjectsupported on TiO2es, en
dc.subjectoxidized and reduced oxidation stateses, en
dc.titleEffects in Band Gap for Photocatalysis in TiO2 Support by Adding Gold and Rutheniumes, en
dc.typeArticlees, en
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