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Separation Science and Technology Volume 52, 2017 - Issue 10
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Adsorption

Adsorption of chromium(VI) from aqueous solution by Artist’s Bracket fungi

Saeed PourkarimSchool of Health, Guilan University of Medical Sciences, Rasht, Iran
,
Fariba OstovarDepartment of Analytical Chemistry, Environmental Research Institute, Rasht, Iran
,
Mostafa MahdavianpourSchool of Health, Guilan University of Medical Sciences, Rasht, Iran
&
Mehrdad MoslemzadehSchool of Health, Guilan University of Medical Sciences, Rasht, IranCorrespondence[email protected]
Pages 1733-1741 | Received 28 May 2016, Accepted 21 Feb 2017, Published online: 09 May 2017

References

  • Matos, A.; Bezerra, R.; Dias, A. (2007) Screening of fungal isolates and properties of Ganoderma applanatum intended for olive mill wastewater decolourization and dephenolization. Letters in Applied Microbiology, 45 (3): 270–275.
  • Joo, S.S.; Ryu, I.W.; Park, J.; Yoo, Y.M.; Lee, D.; Hwang, K.W.; Choi, H.; Lim, C.; Lee, D.I.; Kim, K. (2008) Molecular cloning and expression of a laccase from Ganoderma lucidum, and its antioxidative properties. Molecules and Cells, 25 (1): 112.
  • Aksu, Z.; Balibek, E. (2007) Chromium (VI) biosorption by dried Rhizopus arrhizus: Effect of salt (NaCl) concentration on equilibrium and kinetic parameters. J. Hazard. Mater., 145 (1): 210–220.
  • Khoo, K.-M.; Ting, Y.-P. (2001) Biosorption of gold by immobilized fungal biomass. Biochemical Engineering Journal, 8 (1): 51–59.
  • Bayramoğlu, G.; Arıca, M.Y. (2007) Biosorption of benzidine based textile dyes “Direct Blue 1 and Direct Red 128” using native and heat-treated biomass of Trametes versicolor. Journal of Hazardous Materials, 143 (1): 135–143.
  • Lv, X.; Xu, J.; Jiang, G.; Tang, J.; Xu, X. (2012) Highly active nanoscale zero-valent iron (nZVI)–Fe 3 O 4 nanocomposites for the removal of chromium (VI) from aqueous solutions. Journal of Colloid and Interface Science, 369 (1): 460–469.
  • Vieira, R.S.; Oliveira, M.L.M.; Guibal, E.; Rodríguez-Castellón, E.; Beppu, M.M. (2011) Copper, mercury and chromium adsorption on natural and crosslinked chitosan films: An XPS investigation of mechanism. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 374 (1): 108–114.
  • Wang, J.; Pan, K.; He, Q.; Cao, B. (2013) Polyacrylonitrile/polypyrrole core/shell nanofiber mat for the removal of hexavalent chromium from aqueous solution. Journal of Hazardous Materials, 244: 121–129.
  • Li, L.; Fan, L.; Sun, M.; Qiu, H.; Li, X.; Duan, H.; Luo, C. (2013) Adsorbent for chromium removal based on graphene oxide functionalized with magnetic cyclodextrin–chitosan. Colloids and Surfaces B: Biointerfaces, 107: 76–83.
  • Ballav, N.; Maity, A.; Mishra, S.B. (2012) High efficient removal of chromium (VI) using glycine doped polypyrrole adsorbent from aqueous solution. Chemical Engineering Journal, 198: 536–546.
  • Lin, Y.-T.; Huang, C.-P. (2008) Reduction of chromium (VI) by pyrite in dilute aqueous solutions. Separation and Purification Technology, 63 (1): 191–199.
  • Gupta, V.; Nayak, A. (2012) Cadmium removal and recovery from aqueous solutions by novel adsorbents prepared from orange peel and Fe 2 O 3 nanoparticles. Chemical Engineering Journal, 180: 81–90.
  • Gupta, V.K.; Ali, I. (2004) Removal of lead and chromium from wastewater using bagasse fly ash—a sugar industry waste. Journal of Colloid and Interface Science, 271 (2): 321–328.
  • Holda, A.; Mlynarczykowska, A. (2016) Use of dead and living fungal biomass for the removal of hexavalent chromium. Physicochemical Problems of Mineral Processing, 52 (1).
  • Mahmoodi, N.M.; Hayati, B.; Arami, M.; Lan, C. (2011) Adsorption of textile dyes on pine cone from colored wastewater: Kinetic, equilibrium and thermodynamic studies. Desalination, 268 (1): 117–125.
  • Federation, W.E.; Association, A.P.H. (2005) Standard methods for the examination of water and wastewater. American Public Health Association (APHA): Washington, DC, USA.
  • Gupta, V.K.; Pathania, D.; Kothiyal, N.; Sharma, G. (2014) Polyaniline zirconium (IV) silicophosphate nanocomposite for remediation of methylene blue dye from waste water. Journal of Molecular Liquids, 190: 139–145.
  • Ho, Y.; Chiang, C. (2001) Sorption studies of acid dye by mixed sorbents. Adsorption, 7 (2): 139–147.
  • Langmuir, I. (1918) The adsorption of gases on plane surfaces of glass, mica and platinum. Journal of the American Chemical society, 40 (9): 1361–1403.
  • El-Latif, M.A.; Ibrahim, A.M.; El-Kady, M. (2010) Adsorption equilibrium, kinetics and thermodynamics of methylene blue from aqueous solutions using biopolymer oak sawdust composite. Journal of American Science, 6 (6): 267–283.
  • Nwabanne, J.; Okoye, A.; Lebele-Alawa, B. (2011) Packed bed column studies for the removal of lead (ii) using oil palm empty fruit bunch. European Journal of Scientific Research, 63 (2): 296–305.
  • Dima, J.B.; Sequeiros, C.; Zaritzky, N.E. (2015) Hexavalent chromium removal in contaminated water using reticulated chitosan micro/nanoparticles from seafood processing wastes. Chemosphere, 141: 100–111.
  • Kapur, M.; Mondal, M.K. (2013) Mass transfer and related phenomena for Cr (VI) adsorption from aqueous solutions onto Mangifera indica sawdust. Chemical Engineering Journal, 218: 138–146.
  • Ansari, R.; Fahim, N.K. (2007) Application of polypyrrole coated on wood sawdust for removal of Cr (VI) ion from aqueous solutions. Reactive and Functional Polymers, 67 (4): 367–374.
  • Burks, T.; Uheida, A.; Saleemi, M.; Eita, M.; Toprak, M.S.; Muhammed, M. (2013) Removal of chromium (VI) using surface modified superparamagnetic iron oxide nanoparticles. Separation Science and Technology, 48 (8): 1243–1251.
  • Sen, T.K.; Afroze, S.; Ang, H. (2011) Equilibrium, kinetics and mechanism of removal of methylene blue from aqueous solution by adsorption onto pine cone biomass of Pinus radiata. Water, Air, & Soil Pollution, 218 (1–4): 499–515.
  • Mor, S.; Ravindra, K.; Bishnoi, N. (2007) Adsorption of chromium from aqueous solution by activated alumina and activated charcoal. Bioresource Technology, 98 (4): 954–957.
  • Baral, S.S.; Das, S.N.; Rath, P. (2006) Hexavalent chromium removal from aqueous solution by adsorption on treated sawdust. Biochemical Engineering Journal, 31 (3): 216–222.
  • Schmitt, J.; Flemming, H.-C. (1998) FTIR-spectroscopy in microbial and material analysis. International Biodeterioration & Biodegradation, 41 (1): 1–11.
  • Dawood, S.; Sen, T.K. (2012) Removal of anionic dye Congo red from aqueous solution by raw pine and acid-treated pine cone powder as adsorbent: Equilibrium, thermodynamic, kinetics, mechanism and process design. Water Research, 46 (6): 1933–1946.
  • Marín, A.P.; Aguilar, M.; Meseguer, V.; Ortuno, J.; Sáez, J.; Lloréns, M. (2009) Biosorption of chromium (III) by orange (Citrus sinensis) waste: Batch and continuous studies. Chem. Eng. J., 155 (1): 199–206.
  • Gupta, V.; Rastogi, A. (2009) Biosorption of hexavalent chromium by raw and acid-treated green alga Oedogonium hatei from aqueous solutions. Journal of Hazardous Materials, 163 (1): 396–402.
  • Amini, M.; Younesi, H.; Bahramifar, N. (2009) Statistical modeling and optimization of the cadmium biosorption process in an aqueous solution using Aspergillus niger. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 337 (1): 67–73.
  • Amini, M.; Younesi, H.; Bahramifar, N.; Lorestani, A.A.Z.; Ghorbani, F.; Daneshi, A.; Sharifzadeh, M. (2008) Application of response surface methodology for optimization of lead biosorption in an aqueous solution by Aspergillus niger. Journal of Hazardous Materials, 154 (1): 694–702.

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