Published May 31, 2022
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Sorption studies on the removal of copper onto biopolymer derivative: chitosan-gmaliec anhydride-g-ethylene dimethacrylate
Authors/Creators
- 1. Department of Chemistry, Bharathiar University, Coimbatore, Tamilnadu - 641 046, India
- 2. PG and Research Department of Chemistry, D.K.M College for Women, Affiliated to Thiruvalluvar University, Vellore, Tamilnadu - 632 001, India
- 3. Department of Chemistry, Voorhees College, Affiliated to Thiruvalluvar University, Vellore, Tamilnadu - 632 001, India
Description
Reddi, M R Gopal, Gomathi, T, Pavithra, S, Florence, J Annie Kamala, Sudha, P N, Suresh, R (2022): Sorption studies on the removal of copper onto biopolymer derivative: chitosan-gmaliec anhydride-g-ethylene dimethacrylate. Indian Journal of Geo Marine Sciences 51 (5): 476-483, DOI: 10.56042/ijms.v51i05.65577
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- urn:lsid:plazi.org:pub:9250FF80FFFF9D093451FFFE48469471
References
- 1 Crini G, Recent Developments in Polysaccharide -Base Materials used as Adsorbents in Wastewater Treatment, Prog Polym Sci, 30 (2005) 38-70.
- 2 Wang J & Chen C, Biosorption of heavy metals, Biotechnol Prog, 1 (2006) 235-250.
- 3 Regine H S F & Volesky B, Biosorption: a solution to pollution, Int Microbiol, 3 (2000) 17-24.
- 4 Rick G & Cherry K, Hazardous waste treatment technologies, Pudvan publishers, New York, 1987.
- 5 Ahalya N, Ramchandra T V & Kanamodi R D, Biosorption of heavy metals, Res J Chem Environ, 7 (2003) 71-78.
- 6 Alluri H K, Ronda S R, Setalluri V S, Bondili J S, Suryaneraya V, et al., Biosorption: An eco-friendly alternative for heavy metal removal, Afr T Biotechnol, 6 (2007) 2624-2931.
- 7 Bailey S E, Olin T J, Bricka R M & Adrian D D, A Review of Potentially Low-Cost Sorbents for Heavy Metals, Water Res, 33 (1999) 2469- 2479.
- 8 Muzzarelli R A A, Chitin, (Pergamon Press, Oxford), 1977.
- 9 Rinaudo M, Chitin and Chitosan: Properties and Applications, Prog Polym Sci, 31 (2006) 603-632.
- 10 Malafaya P B, Silva G & Reis R L, Natural-Origin Polymers as Carriers and Scaffolds for Biomolecules an Cell Delivery in Tissue Engineering Applications, Adv Drug Deliv Rev, 59 (2007) 207-233.
- 11 Harish Prashanth K V & Tharanathan R N, Chitin/Chitosan: Modifications and Their Unlimited Applications Potential - An Overview, Trends Food Sci Technol, 18 (2007) 117-131.
- 12 Guibal E, Interactions of Metal Ions with Chitosan-Based Sorbents, A Review, Sep Purif Technol, 38 (2004) 43-74.
- 13 Sorlier P, Denuziere A, Viton C & Domard A, Relation between the Degree of Acetylation and the Electrostatic Properties of Chitin and Chitosan, Biomacromolecules, 2 (2001) 765-772.
- 14 Domszy J G & Roberts G A F, Evaluation of infrared spectroscopic techniques for analysing chitosan, Makromolekulare Chemie, 186 (1985) 1671-1677.
- 15 Gerente C, Lee V K C, Le Cloirec P & McKay G, Aplication of Chitosan for the Removal of Metals from Wastewaters by Adsorption - Mechanisms and Models Review, Crit Rev Environ Sci Technol, 37 (2007) 41-127.
- 16 Ravi Kumar M N V, A Review of Chitin and Chitosan Applications, React Funct Polym, 46 (2000) 1-27.
- 17 Heidari A, Younesi H & Mehraban Z, Removal of Ni(II), Cd(II) and Pb(II) fromthe ternary aqueous solution by amino functionalized mesoporous andnanomesoporous silica, Chem Eng J, 153 (2009) 70-79.
- 18 Kumar S, Infrared spectroscopy: Method development and ligand binding studies, Stockholm University, Stockholm, Sweden, 2010, pp. 83.
- 19 Nithya R, Gomathi T, Sudha P N, Jayachandran V, Sukumaran A, et al., Removal of Cr(VI) from aqueous solution using chitosan-g-poly(butylacrylate)/silica gel nanocomposite, Int J Biol Macromol, 87 (2016) 545-554.
- 20 Kungang C & Hongbing J, Dual functional adsorption of benzoic acid from wastewater by biological-based chitosan grafted b-cyclodextrin, Chem Eng J, 203 (2012) 309-318.
- 21 Mall D I, Srivatsav V C & Agarwal N K, Removal of orange-G and methylviolet dyes by adsorption onto bagasse fly ash-kinetic study and equilibriumisotherm analyses, Dyes Pigm, 69 (2006) 210-223.
- 22 Namasivayam C, Prabha D & Kumutha M, Removal of direct red and acid brilliant blue by adsorption onto banana pith, Biores Technol, 64 (1998) 77-79.
- 23 Shafaghat A, Salimi F, Salehzadeh M V J & Shafagha M, Removal of heavy metals (Pb2+, Cu2+ and Cr3+) from aqueous solutions using five plants materials, Afr J Biotech, 11 (2012) 852-855.
- 24 Hajeeth T, Sudha P N, Vijayalakshmi K & Gomathi T, Sorption studies onCr(VI) removal from aqueous solution using cellulose grafted withacrylonitrile monomer, Int J Biol Macromol, 66 (2014) 295-301.
- 25 Kyzas G Z, Commercial coffee wastes as materials for adsorption of heavy metals from aqueous solutions, Materials, 5 (10) (2012) 1826-1840.
- 26 Elliott H A & Huang C P, Adsorption characteristic of some Cu(II) complexes on alumina silicates, Water Res, 15 (1981) 849-854.
- 27 El-Toony M M, Abdel-Geleei M, Aly R O & Ali H F, Removal of Ag+, Co++ and Cs+ From Wastewater Using Porous Resin Blend (Epoxy/PVA), Nature Sci, 9 (2011) 82-89.
- 28 Wang T, Wen L, Lin X, Nan X & Jinren N, Influence of pH, ionic strength and humic acid on competitive adsorption of Pb (II), Cd (II) and Cr (III) onto titanate nanotubes, Chem Eng J, 215 (2013) 366-374.
- 29 Benettayeb A, Muhammad U, Coffee C T, Traore A & Boumediene H, A critical review with emphasis on recent pieces of evidence of Moringa oleifera biosorption in water and wastewater treatment, J Environ Sci Eng, (2022) 1-25.
- 30 Meena A K, Mishrz G K, Kumar S, Rajagopal C & Nagar P N, Adsorption of Ni(II) and Zn(II) from aqueous solution by chemically treated activated carbon, National Conference on Carbon, DMSRDE, Kanpur, 2013.
- 31 Koumanova B, Peeva P, Allen S I, Galllagher K & Healy M J, Biosorption from aqueous solutions by eggshell membranes and Rhizopus oryzae: equilibrium and kinetic studies, Chem Technol Technol, 77 (2002) 539-545.
- 32 Baroni P, Vieira R S, Meneghetti E, Da Silva M G C & Beppu M M, Evaluation of batch adsorption of chromium ions on natural and crosslinked chitosan membranes, J Hazard Mater, 152 (2008) 1155-1163.
- 33 Singh T S & Pant K K, Equilibrium, kinetics and thermodynamic studies for adsorption of As (III) on activated alumina, Sep Purif Technol, 36 (2004) 139-147.
- 34 Dubey S P & Gopal K, Adsorption of chromium (VI) on low cost adsorbents derived from agricultural waste material: a comparative study, J Hazard Mater, 145 (2007) 465-470.
- 35 Langmuir I, The adsorption of gases on plane surfaces of glass, mica and platinum, J Am Chem Soc, 40 (1918) 1361-1403.
- 36 Ramasubramaniam S C, Gomathi G T & Sudha P N, Removal of Chromium (VI) from aqueous solution using chitosan-Starch blend, Der Pharmacia Lettre, 4 (1) (2012) 240-248.
- 37 Bolster Carl H & George M, Hornberger. On the use of linearized Langmuir equations, Soil Sci Soc Am J, 71 (6) (2007) 1796-1806.
- 38 Ngah W S W & Musa A, Adsorption of Humic Acid onto Chitin and Chitosan, J Appl Polym Sci, 69 (1998) 2305-2310.
- 39 Akrawi H S Y, Al-Obaidi M A & Abdulrahman C H, Evaluation of Langmuir and Frendlich isotherm equation for Zinc Adsorption in some calcareous soil of Erbil province north of Iraq, In: IOP Conference Series: Earth and Environmental Science, (IOP Publishing), 761 (1) (2021) p. 012017.
- 40 Freundlich H M F, Uber die adsorption in losungen, Int J Res Phys Chem Chem Phys, 57 (1906) 385-470.
- 41 Voice T C & Weber W J, Sorption of hydraulic compounds by sediments, soilsand suspended solids-I, theory and background, Water Res, 17 (1983) 1433-1441.
- 42 Hemalatha R, Chitra R, Rathinam X R & Sudha P N, Synthesizing and characterization of chitosan graft co polymer: adsorption studies for Cu (II) and Cr (VI), Int J Environ Sci, 2 (2011) 805-828.
- 43 Ismail M G B H, Weng C N, Rahman H A & Zakaria N A, Freundlich isotherm equilibrium equastions in determining effectiveness a low cost absorbent to heavy metal removal in wastewater (leachate) at Teluk Kitang Landfill, Pengkalan Chepa, Kelantan, Malaysia, J Geogr Earth Sci, 1 (2013) 1-8.
- 44 Vigdorowitsch M, Alexander N, Pchelintsev & Liudmila E T, Analytical Continuation within the Freundlich Adsorption Model. Comment on Edet, UA; Ifelebuegu, AO Kinetics, Isotherms, and Thermodynamic Modeling of the Adsorption of Phosphates from Model Wastewater Using Recycled Brick Waste Processes, Processes, 9 (7) (2021) p. 1251.