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Excellent degradation performance of azo dye by metallic glass/titanium dioxide composite powders View Full Text

Ontology type: schema:ScholarlyArticle     


Article Info

DATE

2013-06-21

AUTHORS

Jian Fei Yang, Xiu Fang Bian, Mei Ling Yuan, Yan Wen Bai, Yang Liu, Jun Peng Fan, Xiao Qian Lu, Kai Kai Song

ABSTRACT

The metallic glass/titanium dioxide powders (MG/TiO2) with enhanced photocatalytic oxidation activity were synthesized, which exhibit a higher efficiency in decolorizing methylene blue solutions (MB). Compared with the pure TiO2 and crystalline alloy/TiO2 (CA/TiO2) under the same circumstances, its degradation rate was 60 % and 30 % higher, respectively. Furthermore, compared with the CA/TiO2, the MG/TiO2 photocatalytic rate was three times faster when decolorizing MB. Considering the excellent intrinsic high-performance photocatalytic degradation under visible light irradiation, these novel powders were proven to have potential applications in water purification industry. More... »

PAGES

362-367

References to SciGraph publications

  • 2013-03-27. Synthesis of TiO2/Bi2WO6 nanofibers with electrospinning technique for photocatalytic methyl blue degradation in JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY
  • 2012-05-23. Excellent capability in degrading azo dyes by MgZn-based metallic glass powders in SCIENTIFIC REPORTS
  • 2013-04-16. Synergistic effect between TiO2 sol–gel and Degussa P25 in dye photodegradation in JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY
  • 2010-09-29. Global threats to human water security and river biodiversity in NATURE

    • Journal

    TITLE

    Journal of Sol-Gel Science and Technology

    ISSUE

    2

    VOLUME

    67

    Subjects

  • FOR: Engineering
  • FOR: Environmental Engineering
  • FOR: Materials Engineering

    • Author Affiliations

  • Key Laboratory for Liquid-Solid Structural Evolution and Processing of Materials, Ministry of Education, Shandong University, 250061, Jinan, China
  • Department of Process and Energy, Delft University of Technology, Leeghwaterstraat 44, 2628 CA, Delft, The Netherlands
  • Institut für Komplexe Materialien, IFW Dresden, 01069, Dresden, Germany

    • From Grant

  • Superheated Molten Metal Behavior And Glass Forming Ability

    • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1007/s10971-013-3089-3

    DOI

    http://dx.doi.org/10.1007/s10971-013-3089-3

    DIMENSIONS

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    169 grid-institutes:grid.5292.c schema:alternateName Department of Process and Energy, Delft University of Technology, Leeghwaterstraat 44, 2628 CA, Delft, The Netherlands
    170 schema:name Department of Process and Energy, Delft University of Technology, Leeghwaterstraat 44, 2628 CA, Delft, The Netherlands
    171 rdf:type schema:Organization
     




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