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YUAN CAI1,2,* , LIXIN TANG3, YUNTAO WANG3,* , NING XU3,* , YULONG LI3, GUOWEI JI3
Cobalt phthalocyanine dye (CoPc) sensitized TiO2 composites (CoPc/TiO2) with visible-light responses were synthesized employing ultrasonic immersing-hydrothermal sensitization method facilely. Scanning electron microscopy (SEM) and transmission electron miscroscopy (TEM) were employed to visually observe the surface morphologies of the samples. We studied the visible-light response using UV-vis diffuse reflectance spectroscopy and optical band gap calculations using the Tauc plot equation. The photocatalytic activities of the as-prepared CoPc/TiO2 composites were assessed in terms of the degradation rate of methylene blue (MB) solution under visible-light irradiation. The CoPc/TiO2 (1:3 mass ratio) composites achieved best enhancement of photocatalytic activity. When CoPc/TiO2 nanocomposites were applied for different photocatalytic degradation cycling times, the degradation rate of MB still reaches 74% which reflects the fact that CoPc/TiO2 composites have a high photostability in the photocatalytic process. When taking the decomposition rate and photoresponse into consideration, the possible connection action between CoPc and TiO2 and visible-light induced photocatalytic mechanism of contaminants degradation in the presence of CoPc/TiO2 nanoparticles were proposed. Potential bonding interaction between CoPc dye and TiO2 framework improves photogenerated electron-hole pair separation and facilitates photogenerated charge transfer, which gives access to the occurrence of degradation of hazardous materials..
Cobalt phthalocyanine dye, Titanium dioxide, Band gap calculation, MB degradation.
YUAN CAI, LIXIN TANG, YUNTAO WANG, NING XU, YULONG LI, GUOWEI JI, Fabrication of cobalt phthalocyanine-TiO2 with enhanced photocatalytic activity for the removal of MB dye, Optoelectronics and Advanced Materials - Rapid Communications, 9, 7-8, July-August 2015, pp.1014-1021 (2015).
Submitted at: April 7, 2015
Accepted at: June 24, 2015
Optoelectronics and Advanced Materials - Rapid Communications
(2022): 0.5 - 2022 Journal Citation Reports (Clarivate Analytics, 2023)
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