Elongation of ZnWO4 nanocrystals for enhanced photocatalysis and the effects of Ag decoration
[Display omitted] •Glycine additive may promote and suppress nanorod ZnWO4 development, depending on its content.•Ag decoration may promote and retard photocatalysis, depending on the reactivity of ZnWO4.•The kinetics of photocatalysis was elucidated from morphology/structure and photoreactions. Gly...
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Published in | Applied surface science Vol. 515; p. 146011 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
Published |
Elsevier B.V
15.06.2020
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Subjects | |
Online Access | Get full text |
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Summary: | [Display omitted]
•Glycine additive may promote and suppress nanorod ZnWO4 development, depending on its content.•Ag decoration may promote and retard photocatalysis, depending on the reactivity of ZnWO4.•The kinetics of photocatalysis was elucidated from morphology/structure and photoreactions.
Glycine was originally studied as a morphology modifier for the hydrothermal crystallization of ZnWO4 nanocrystals, which led to high aspect ratio nanorods and short tetragonal prisms at the glycine/Zn2+ molar ratios (R) of 0.5 and 3, respectively. It was discussed that glycine affects the nucleation and [0 0 1] growth of ZnWO4 crystallites via chelation and selective adsorption. Photocatalytic evaluation via bleaching methyl orange (MO) solution under UV irradiation found that the efficiency of degradation increases with increasing aspect ratio of the ZnWO4 nanocrystals, and the best catalytic R = 0.5 sample degraded ~99.5% of the MO molecules within ~80 min. Surface decoration with Ag nanocrystallites (~5–15 nm) significantly enhanced the efficiency of the least reactive R = 3 sample, but is detrimental to the already highly active R = 0.5 ZnWO4 nanorods. The kinetics of photocatalysis were discussed from the morphology/structure of the catalysts by considering the involved photoreactions. |
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ISSN: | 0169-4332 1873-5584 |
DOI: | 10.1016/j.apsusc.2020.146011 |