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Huan jing ke xue= Huanjing kexue
Aug, 2006;27 (8): 1501-7.

[Photocatalytic degradation of hexafluorobenzene by tungstophosphoric acid].

Li Huang, You Chen, Wen-Bo Dong, Ren-Xi Zhang, Hui-Qi Hou
Author Information
  1. Li Huang: Institute of Environmental Science, Fudan University, Shanghai 200433, China.
PMID: 17111601

Abstract

We verified that C6F6, a typical perfluorine compound, could be photocatalytic degraded by H3PW12O40. The defluorination of C6F6 was determined as a function of irradiation time, pH, initial concentration of H3PW12O40, and additives as well. The defluorination of C6F6 increased with the irradiation time. Acid condition, especially pH = 1.0 is preferred. 3 mL solution of 2.0 x 10(-4) mol/L C6F6 and 5.0 x 10(-6) mol/L H3PW12O40 was irradiated for 20 min and the defluorination of C6F6 was equal to 208.1%. O2, KMnO4 and K2S2O8 added in the solution were able to increase the defluorination of C6F6 via oxidating [PW12O40](4-). The defluorination of C6F6 would decline in the presence of alcohol and aromatic compounds.

MeSH Term

Catalysis
Fluorocarbons
Oxidation-Reduction
Phosphoric Acids
Photochemistry
Photolysis
Tungsten Compounds
Waste Disposal, Fluid

Chemicals

12-tungstophosphoric acid
Fluorocarbons
Phosphoric Acids
Tungsten Compounds
hexafluorobenzene
English Abstract Journal Article Research Support, Non-U.S. Gov't

Word Cloud

Created with Highcharts 10.0.0C6F6defluorinationH3PW12O400irradiationtimepHsolutionx10mol/LverifiedtypicalperfluorinecompoundphotocatalyticdegradeddeterminedfunctioninitialconcentrationadditiveswellincreasedAcidconditionespecially=1preferred3mL2-45-6irradiated20minequal2081%O2KMnO4K2S2O8addedableincreaseviaoxidating[PW12O40]4-declinepresencealcoholaromaticcompounds[Photocatalyticdegradationhexafluorobenzenetungstophosphoricacid]

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