Silvernano Particle Loaded on Activated Carbon as Novel Adsorbent for the Removal of Acid Yellow 199 Dye
Subject Areas : Journal of Chemical Health RisksZ. Alishavandi 1 , N. Mosallanejad 2 , R. shabani 3
1 - Graduate student, Department of Chemistry, Firozabad Branch, Islamic Azad University, Firozabad, Iran
2 - Department of Chemistry, Mashhad Branch, PN University, Khorasan, Iran
3 - Department of Chemistry, Firozabad Branch, Islamic Azad University, Firozabad, Iran
Keywords:
Abstract :
- Heydari M., Fazaeli R., Yousefi M., 2012.
- Preparation of PerovskiteNanocomposites
- andPhotochemical Degradation Kinetics of Acid
- Yellow 199, J.Appl.ChemRes, 6:7-15.
- Wijetunga S., Xiufen L., Wenquan R., Chen J.,
- Removal Mechanisms of Acid Dyes of
- DifferentChemical Groups under Anaerobic
- Mixed Culture, Ruhana J. Scie, 2: 96-110.
- Blackburn R. S., 2004. Natural polysaccharides
- and their interactions with dye molecules:
- applications in effluent treatment. Environ. Sci.
- Technol. 38: 4905âââ 4909.
- Crini G.,Peindy H. N.,Gimbert F., 2007.
- Removal of C.I. Basic Green 4 (Malachite Green)
- from aqueous solutions by adsorption using
- cyclodextrin- based adsorbent: Kinetic and
- equilibrium studies. Sep. Pur. Technol, 53: 97âââ
- Sun Q., Yang L., 2003.The adsorption of basic
- dyes from aqueous solution on modeled peatresinparticle.
- Water Res. 37:1535-1544.
- Yee H., Chin S. M., 2005. Decolorization
- effects of six azo dyes by O3, UV/O3 and
- UV/H2O2processes. Dyes Pigm. 65: 25-31.
- Chatterjee S., Chatterjee S.,Chatterjee B. P.,
- Guha A. K., 2007. Adsorptive removal of congo
- red, a carcinogenic textile dye by chitosan
- hydrobeads: Binding mechanism, equilibrium and
- kinetics. Colloids & Surfaces A: Physicochem.
- Eng. Aspects. 299:146âââ152.
- Mondal S., 2008. Methods of dye removal from
- dye house effluent-an overview. Environ. Engg.
- Sci. 25:383âââ396.
- Zonoozi M. H., MoghaddamM. R. A., Arami
- M., 2009. Coagulation/flocculation of dye
- containing solutions using polyaluminium chloride
- and alum. Water Sci. Technol. 59:1343âââ1351.
- Sachdeva S., Kumar A., 2009. Preparation of
- nanoporous composite carbon membrane for
- separation of Rhodamine B dye. J. Membr. Sci.
- : 2âââ10.
- Tan I., Ahmad A. L., Hameed B. H., 2008.
- Adsorption of basic dye on high-surface area
- activated carbon prepared from coconut husk:
- equilibrium, kinetic and thermodynamic studies. J.
- Hazard. Mater. 154:337âââ346.
- Gupta V. K., Jain R., Varshney S., 2007.
- Electrochemical removal of hazardous dye
- Reactofix Red 3 BFN from industrial effluents. J.
- Colloid Interface Sci. 312: 292âââ296.
- Gupta V. K., 2007. Photochemical degradation
- of hazardous dyeâââsafaranin-T using TiO2
- catalyst. J. Colloid Interface Sci. 309: 460âââ465.
- Kavitha D., Namasivayam C., 2007.
- Experimental and kinetic studies on methylene
- blue adsorption by coir pith carbon. Bioresour.
- Technol. 98:14âââ21.
- Hua Z., Chena H., Ji F., Yuana S., 2010.
- Removal of Congo Red from aqueous solution by
- cattail root. J. Hazard Mater. 173:292âââ297.
- Cheung W. H., Szeto Y. S., McKay G., 2009.
- Enhancing the adsorption capacities of acid dyes
- by chitosan nano particles.Bioresour. Technol.
- :1143âââ1148.
- Mosallanejad N., Arami A., 2012. Kinetics and
- isotherm of sunset yellow dye adsorption on
- cadmium sulfide nanoparticle loaded on activated
- carbon, J Chem Health Risks 2(1): 31-40.
- Huang H., Yang X., 2004. Synthesis of
- polysaccharide-stabilized gold and silver
- nanoparticles: A green method. Carbohyd. Res.
- , 2627-2631
- Huang H., Yang X., 2004. Synthesis of
- polysaccharide-stabilized gold and silver
- nanoparticles: a green method. Carbohydr. Res.
- : 2627-31.
- Wang X., Chen Y., 2008. A new two-phase
- system for the preparation of nearly mono disperse
- silver nanoparticles,Mater. Lett.62: 4366âââ8.
- Goudarzi A., MotedayenAval G., Park S. S.,
- Choi M.C., Sahraei R., 2009. Antisolvent-induced
- encapsulation for extraction/preconcentration of
- silver nanoparticles,Chem. Mater. 21: 2375-85.
- Slejko F. L., 1985. Adsorption Technology: A
- Step by step approach to process evaluation
- application. Marcel Dekker, NY.
- SuffetI H., McGurie M. J., 1985. Activated
- carbon adsorption of organics from aqueous
- phase.Ann.Arbor. Sci. Michigan. 1âââ2.
- Mittal A., Kurup L., Mittal J., 2007.
- Freundlich andLangmuir adsorption isotherms and
- kinetics for the removal of Tartrazine from
- aqueous solutions using hen feathers. J. Hazard
- Mater. 146:243âââ248.
- Langmuir I., 1916. The constitution and
- fundamental properties of solids and liquids. J.
- Am. Chem. Soc. 38:2221âââ2295.
- Crini G., 2006. Non-conventional low-cost
- adsorbents for dye removal, a review.Bioresour.
- Technol. 97:1061âââ1085.
- Temkin M. J., Pyzhev V., 1940. Recent
- modification to Langmiur
- isotherms.ActaPhysiochim. USSR. 12: 217âââ222.
- Rengaraj S., KimY., Joo C. K., Yi J., 2004.
- Removal of copper from aqueous solution by
- aminated and protonated mesoporousaluminas:
- kinetics and equilibrium. J. Colloid Interf. Sci.
- :14-21.
- Sari A., Tuzen M., 2008. Biosorption of
- cadmium (II) from aqueous solution by red algae
- (Ceramiumvirgatum): Equilibrium, kinetic and
- thermodynamic studies. J. Hazard.Mater. 157:448-