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Facile synthesis of hierarchical ZnO microstructures with enhanced photocatalytic activity

Leigang Miao

Leigang Miao

  • School of Mining and Safety Engineering, Anhui University of Science and TechnologyHuainan, China
  • College of Energy and Transportation Engineering, Jiangsu Vocational Institute of Architectural TechnologyXuzhou, China
  • Faculty of Mining and Geoengineering, AGH University of Science and TechnologyKrakow, Poland
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Miao, Leigang
, 
Biming Shi

Biming Shi

School of Mining and Safety Engineering, Anhui University of Science and TechnologyHuainan, China
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Shi, Biming
, 
Nawrat Stanislaw

Nawrat Stanislaw

Faculty of Mining and Geoengineering, AGH University of Science and TechnologyKrakow, Poland
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Stanislaw, Nawrat
, 
Chaomin Mu

Chaomin Mu

School of Mining and Safety Engineering, Anhui University of Science and TechnologyHuainan, China
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Mu, Chaomin
 et 
Kezhen Qi

Kezhen Qi

Institute of Catalysis for Energy and Environment, College of Chemistry and Chemical Engineering, Shenyang Normal UniversityShenyang, China
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Qi, Kezhen
  
10 mars 2017
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Publié en ligne: 10 mars 2017
Pages: 45 - 49
Reçu: 24 avr. 2016
Accepté: 24 nov. 2016
DOI: https://doi.org/10.1515/msp-2017-0007
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© 2017 Leigang Miao, Biming Shi, Nawrat Stanislaw, Chaomin Mu, Kezhen Qi
This article is distributed under the terms of the Creative Commons Attribution Non-Commercial License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Flower-like ZnO microstructures were successfully synthesized via a facile hydrothermal route without using any surfactants. The morphology of these microstructures can be easily controlled by adjusting the pH of the reaction solution. The possible growth mechanism of ZnO hierarchical microstructures was proposed based on the X-ray powder diffraction (XRD) and scanning electron microscope (SEM) results. The photocatalytic activity studies of ZnO nanocrystals demonstrated their excellent photocatalytic performance in degrading aqueous methylene blue (MB) under UV-A light irradiation. This higher photocatalytic activity of the ZnO nanoplates was mainly attributed to the exposed facets with the higher surface energy.

Langue:
Anglais
Périodicité:
4 fois par an
Sujets de la revue:
Sciences des matériaux, Sciences des matériaux, autres, Nanomatériaux, Matériaux fonctionnels et intelligents, Caractérisation et propriétés des matériaux
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