Advanced SearchSearch Tips
Improved Photo Degradation of Rhodamine B Dye using Iron Oxide/Carbon Nanocomposite by Photo-Fenton Reaction
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
  • Journal title : Carbon letters
  • Volume 9, Issue 3,  2008, pp.195-199
  • Publisher : Korean Carbon Society
  • DOI : 10.5714/CL.2008.9.3.195
 Title & Authors
Improved Photo Degradation of Rhodamine B Dye using Iron Oxide/Carbon Nanocomposite by Photo-Fenton Reaction
Kim, Min-Il; Im, Ji-Sun; In, Se-Jin; Kim, Hyuk; Kim, Jong-Gyu; Lee, Young-Seak;
  PDF(new window)
A nanocomposite consisting of and MWCNT was produced via sol-gel technique using along with MWCNT by calcination at . The degradation effect of rhodamine B dye has been investigated under UV illumination in a darkroom. The degradation reaction was studied by monitoring the discoloration of dye as a function of irradiation time using UV-visible spectrophotometeric technique. The -MWCNT samples have continuous degradation ability under the UV illumination with the first order kinetics and the dye removal was better than in the pristine . The resultant composite catalyst was found to be efficient for the photo-Fenton reaction of the dye.
Iron oxide;Nano composite;Photo-Fenton reaction;Dye removal;
 Cited by
Altering the structure and properties of iron oxide nanoparticles and graphene oxide/iron oxide composites by urea, Applied Surface Science, 2016, 364, 686  crossref(new windwow)
Photocatalytic efficiency of iron oxide nanoparticles for the degradation of priority pollutant anthracene, Geosystem Engineering, 2016, 1  crossref(new windwow)
Polyacrylamide/Ni0.02Zn0.98O Nanocomposite with High Solar Light Photocatalytic Activity and Efficient Adsorption Capacity for Toxic Dye Removal, Industrial & Engineering Chemistry Research, 2014, 53, 40, 15549  crossref(new windwow)
Glucose sensing, photocatalytic and antibacterial properties of graphene–ZnO nanoparticle hybrids, Carbon, 2012, 50, 8, 2994  crossref(new windwow)
Gunseli, T.; Mustafa, O. Dyes Pigments 2006, 70, 117. crossref(new window)

Robens, J. F.; Diu, G. S.; Ward, J. M.; Joiner, J. R.; Griesemer, R. A.; Douglas, J. F. Toxicol. Appl. Pharm. 1980, 54, 431. crossref(new window)

So, C. M.; Cheng, M. Y.; Yu, J. C.; Wong, P. K. Chemosphere 2002, 46, 905. crossref(new window)

Swarnalatha, B.; Anjaneyulu, Y. J. Mol. Catal. A -Chem. 2004, 223, 161. crossref(new window)

Hsueh, C. L.; Huang, Y. H.; Wang, C. C.; Chen, C. Y. Water Sci. Technol. 2006, 53, 195.

Farr'e, M. J.; Franch, M. I.; Malato, S.; Ayll'on, J. A.; Peral, J.; Dom'enech Chemosphere 2005, 58, 1127. crossref(new window)

Da Hora Machado, A. E.; Xavier, T. P.; de Souza, D. R.; de Miranda, J. A.; Mendonsa-Duarte, E. T. F.; Ruggiero, R.; de Oliveira, L.; Sattler, C. Sol. Energy 2005, 77, 583.

Fenton, H. J. H. J. Chem. Soc. 1894, 65, 899. crossref(new window)

Kavitha, V.; Palanivelu, K. J. Photochem. Photobio. 2005, 170, 83. crossref(new window)

Feng, J.; Hu, X.; Yue, P. L. Water Res. 2005, 39, 89. crossref(new window)

Chacon, J. M.; Leal, M. T.; Sanchez, M.; Bandala, E. R. Dyes Pigments 2006, 69, 144. crossref(new window)

Valca' rcel, M.; Ca' rdenas, S.; Simonet, B. M. Anal. Chem. 2007, 79, 4788. crossref(new window)

Inagaki, M.; Kaneko, K.; Nishizawa, T. Carbon 2004, 42, 1401. crossref(new window)

Georgakilas, V.; Gournis, D.; Tzitzios, V.; Pasquato, L. J. Mater. Chem. 2007, 17, 2679. crossref(new window)

Knite, M.; Tupureina, V.; Fuith, A.; Zavickis, J.; Teteris, V. Mat. Sci. Eng. C 2007, 27, 1125. crossref(new window)

Lee, J. M.; Palanivelu, K.; Lee, Y. S., Solid State Phenomena 2008, 135, 85. crossref(new window)

Spacek, W.; Bauer, R. Chemosphere 1995, 30, 477. crossref(new window)

Balanosky, E.; Herrera, F.; Lopez, A.; Kiwi, J. Water Res. 2000, 34, 582. crossref(new window)

Zhou, T.; Li, Y.; Ji, J.; Wong, F. S.; Lu, X. Sep. Purif. Technol. 2008, 62, 551. crossref(new window)