Impact of band-gap graded structures artificially implemented in Mg–ZnO epitaxial films on photoelectrochemical properties

Abstract: The impact of band gap-graded structures artificially implemented in a photocatalyst on the photoelectrochemical properties was investigated in a model system of epitaxial thin film Mg-ZnO. The band gap-graded Mg-ZnO...

“…19 We further confirmed the photocathodic activity of the BiOCl thin films by using the reduction reaction of Ag + ions. 47,48 Figure 6a shows XRD θ−2θ patterns after the photocathodic reaction without external bias in AgNO 3 aqueous solution. In the presence of the electron scavenger Ag + , the reduction reaction of Ag + ions dominantly takes place because of its higher redox potential compared to the reduction reaction of H + ions.…”

Near-Ultraviolet Light-Driven Photocathodic Activity for (001)-Oriented BiOCl Thin Films Synthesized by Mist Chemical Vapor Deposition

“…19 We further confirmed the photocathodic activity of the BiOCl thin films by using the reduction reaction of Ag + ions. 47,48 Figure 6a shows XRD θ−2θ patterns after the photocathodic reaction without external bias in AgNO 3 aqueous solution. In the presence of the electron scavenger Ag + , the reduction reaction of Ag + ions dominantly takes place because of its higher redox potential compared to the reduction reaction of H + ions.…”

Near-Ultraviolet Light-Driven Photocathodic Activity for (001)-Oriented BiOCl Thin Films Synthesized by Mist Chemical Vapor Deposition

Investigations of adsorption and photoluminescence properties of encapsulated Al–ZnO nanostructures: Synthesis, morphology and dye degradation studies

First principles investigations of structural and electronic properties of Ga-doped ZnZrO solid solutions for catalytic reduction of CO2