Title of article
Biosorption of Cu^2+ by Eichhornia crassipes: Physicochemical characterization, biosorption modeling and mechanism
Author/Authors
Komy, Zanaty R. Sohag University - Faculty of Science - Chemistry Department, Egypt , Abdelraheem, Wael H. Sohag University - Faculty of Science - Chemistry Department, Egypt , Ismail, Nabawia M. Sohag University - Faculty of Science - Chemistry Department, Egypt
From page
47
To page
56
Abstract
This work presents the biosorption potential Eichhornia crassipes biomass, collected from the Nile water, for removing Cu(II) ions. Physicochemical characteristics, proton and Cu^2+ binding constants, and biosorption isotherms were studied. The biomass contains 43.3 mg g 1 protein, 40.76 mg g^-1 carbohydrates and 16 types of amino acids. The biomass has large surface area (4.16 m^2 g^-1) and pore size (35.93 A˚ ). Proton bindings (pKH1 =1.8; pKH2 = 1.9; pKH3= 2.0) and Cu^2+ binding constants (pKM1 =4.37; pKM2= 4.24; pKM3= 3.76) were calculated by Non-Ideal Competitive Absorption (NICA) model. FT-IR results suggested that AOH, ACOOH and AP‚O sites are mainly responsible for Cu^2+ biosorption. Biosorption isotherms were successfully fitted by two Langmuir linearization models. The biosorption mechanism includes ionization and complexation stages. The biomass shows a breakthrough ability for Cu^2+ biosorption (qmax = 27.7 mg g^-1) and at pH 4.5.
Keywords
Biosorption , Eichhornia crassipes , Acidic site , Modeling , Binding constants
Journal title
Journal Of King Saud University - Science
Journal title
Journal Of King Saud University - Science
Record number
2609357
Link To Document