Mingyi Zhang scite author profile

The photochemical reactivity of the SrTiO3 surface is affected by the pH of the surrounding aqueous solution. Scanning electron microscopy and atomic force microscopy have been used to quantify the amount of silver that is photochemically reduced on the surfaces of (100), (110), and (111) oriented crystals as a function of pH. For all orientations, the reactivity increases from pH 3, reaches a maximum, and then decreases at higher pH. The pH associated with the maximum reactivity depends on the crystallographic orientation of the surface. The results indicate that the solution pH influences the charge on the SrTiO3 surface. The amount of surface charge influences band bending within SrTiO3, and the maximum reactivity is achieved at a surface charge where neither the photocathodic nor the photoanodic reaction limit the overall reaction rate.

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Influence of particle size and shape on the rate of hydrogen produced by Al‐doped SrTiO₃ photocatalysts

Zhang

Salvador

Rohrer

2022

J Am Ceram Soc.

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Photocatalytic hydrogen production rates have been measured from Al‐doped SrTiO3 with a range of controlled shapes and sizes using a high‐throughput parallelized and automated photochemical reactor. It is found that the photocatalytic reactivity is influenced by crystal shape and that crystals with a {1 1 0} to {1 0 0} surface area ratio between 1.3 and 1.8 yield more H2 than crystals with other ratios. Crystals with a {1 1 0}/{1 0 0} surface area ratio of 1.8 generate hydrogen at 550 μmol h−1 g−1 at pH 7, whereas crystals with only {1 0 0} facets exposed generate hydrogen at 300 μmol h−1 g−1 under the same condition. It is likely that the surface area ratio provides the appropriate balance between the photoanodic reaction on the {1 1 0} surface and the photocathodic reaction on the {1 0 0} surface. In the size range of 250–450 nm, larger crystals produce hydrogen at a rate of 400 μmol h−1 g−1 at pH 7, whereas smaller crystals only produce 200 μmol h−1 g−1, suggesting that the larger crystals reduce the rate of electron–hole recombination or back reaction and that the widths of the space charges within the crystal are comparable to the particle radius.

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Influence of orientation and ferroelectric domains on the photochemical reactivity of La2Ti2O7

Zhang

Salvador

Rohrer

2021

Journal of the European Ceramic Society

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Synthesis and Structure of an Ion‐Exchanged SrTiO₃ Photocatalyst with Improved Reactivity for Hydrogen Evolution

Zhang

Lopato

Ene

et al. 2023

Adv Materials Inter

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This has motivated attempts to develop photocatalysts with enhanced charge-separation properties using defect engineering, [5,6] facet engineering, [7][8][9] and the construction of heterojunctions. [10][11][12] Recently, molten salt treatments have been used for synthesis and to optimize photocatalyst properties. [13,14] In a molten salt, the mass transfer between precursors is accelerated and, compared with conventional solid-state synthesis, lower reaction temperatures can be used. [15,16]

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Influence of the molten SrCl2 treatment on the surface structure and photochemical reactivities of SrTiO3

Zhang

Guo

Gellman

et al. 2023

Applied Surface Science

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Mingyi Zhang

Influence of pH and Surface Orientation on the Photochemical Reactivity of SrTiO₃

Influence of particle size and shape on the rate of hydrogen produced by Al‐doped SrTiO₃ photocatalysts

Influence of orientation and ferroelectric domains on the photochemical reactivity of La2Ti2O7

Synthesis and Structure of an Ion‐Exchanged SrTiO₃ Photocatalyst with Improved Reactivity for Hydrogen Evolution

Influence of the molten SrCl2 treatment on the surface structure and photochemical reactivities of SrTiO3

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About

Mingyi Zhang

Influence of pH and Surface Orientation on the Photochemical Reactivity of SrTiO3

Influence of particle size and shape on the rate of hydrogen produced by Al‐doped SrTiO3 photocatalysts

Influence of orientation and ferroelectric domains on the photochemical reactivity of La2Ti2O7

Synthesis and Structure of an Ion‐Exchanged SrTiO3 Photocatalyst with Improved Reactivity for Hydrogen Evolution

Influence of the molten SrCl2 treatment on the surface structure and photochemical reactivities of SrTiO3

Contact Info

Product

Resources

About

Influence of pH and Surface Orientation on the Photochemical Reactivity of SrTiO₃

Influence of particle size and shape on the rate of hydrogen produced by Al‐doped SrTiO₃ photocatalysts

Synthesis and Structure of an Ion‐Exchanged SrTiO₃ Photocatalyst with Improved Reactivity for Hydrogen Evolution