Transactions on Engineering and Sciences Vol.3, Issue 6, October-December 2015
ISSN: 2347-1964 (Online) 2347-1875 (Print)
Solvent Extraction Method for the separation of Zinc(II) By use 2- [4-bromo-2,6-diethyl phenylazo] 4,5-diphenylimidazole(BDPI) Sahar Akeel Hussein1 1,2&3Department
R.K.Al-Kubaisy2
Taghreed H. Al-Noor3
of Chemistry, College of Education for Pure Science, Ibn Al-Haitham Baghdad University, Iraq.
Abstract: Extraction experiments for Zn(II) ions from aqueous phase by new laboratory prepared Azo derivation as complex agent 2- [4-bromo-2,6-diethyl phenylazo] -4,5-diphenylimidazole(BDPI)shows the optimum conditions for this extraction method was (pH= 8) (10 minutes) shaking time and 50µg concentration of Zn(II)ions in aqueous phase. Organic solvents effect study shows there is not any linear relation between distribution ratio (D) for extraction of Zn+2 ions and dielectric constant (ε)for organic solvents used but there is in effect for organic solvent structure on the extraction of Zn+2 ions and distribution ratio (D) values. Stoichiometric studies demonstrated the more probable structure ion pair complex extracted for Zn+2 was 1:1. Keywords: Zn(ΙΙ), Solvent extraction, 2- [4-bromo-2,6-diethyl phenylazo]-4, 5-diphenylimidazole(BDPI) I.
INTRODUCTION
Previously used the azo compounds and its derivatives for the extraction methods and used to spectrophotometric determination of transition elements, Determination of Zn(II) 2-[2-pyridil azo]-4-benzen naphthol and 2-[(4-Hydroxy phenyl azo]-4,5-diphenyl imidazol were synthesized and used for the extraction of Zn(II) and Cd(II) from aqueous solutions. Study effective factors on the extraction method such as pH, metal concentration, shaking time organic solvents. Stoichiometry shows the complex extracted was [M+2(PABN-(Cl-)] and [M+2(HPADPI)]2Cl- when (M2+=Zn2+,Cd2+)[121] [1].The extraction of Zn(II) and Cd(II) with mixtures of neutral organophosphorus extractants (aliphatic trialkyl phosphine oxide, Cyanex 923, or branched cyclic trialkyl phosphine oxide, Cyanex 925) and amine extractants (N,N-di(1-methylheptyl) acetamide, N503, or trialkyl amine, N235)Synergistic effects were observed for Zn(II) with Cyanex 923+N503 and for Cd(II) with Cyanex 923+N235 and Cyanex 925+N235. However, the other mixing systems do not have synergistic effects on Zn(II) and Cd(II). The stiochiometry of extracted species studied with slope analysis and constant moles in the three synergistic systems[2].] Extraction of micro amount Coper (II) and Nickel(II)by organic reagent2-[(3-Acyl methyl phenyl)azo]-4,5-di phenyl imidazole(3-AMePADPI) and spectophotometric determination of Copper (II) and Nickel(II) used for in different samples, studies conditions for complex formation was pH= 8 and 11 , shaking time 15 minutes for Cu+2 and Ni+2 respectively[3]. II. EXPERIMENTAL A. Apparatus: All spectrophotometric measurements and absorbance were registered by using a biochrom double beam UV-Vis Spectrophotometer model (biochrom libra S60) (A Harvard Bio science company ,Cambridge UK), IR-Spectra for the complexes were recorded by using FTIR S 8400 (England).The determination of melting point 5063 Stuart Melting Point Apparatus (England),as well analytical unit 1108 C.H.N Element analyzer. B. Reagents - Materials and Solutions: All chemical materials received from commercial sources with high purity and used as received [4] The stock solution of Zn(II)ions (1 mg/ml) prepared by dissolved 1 gm of Zn metal in (15 ml) of dilute hydrochloric acid (1 : 1) and then diluted this solution to 1 liter by distilled water in volumetric flask. A working standard solutions prepared by dilution with distilled water, needful prepared buffer solution (pH = 5) for determination of Zn(II)by dissolved (50 gm) of unhydrous sodium acetate and (30 gm) of glacial acetic acid in 250 ml volumetric flask, as well as necessarily prepared sodium thiosulphate solution (10%) also for Zn(II)determination. Dithizone standard solution (1× 10-2 M) prepared by dissolved (0.05232 gm) in (10 ml) CCl4, and working solution (1×10-4 M) prepared by dilution with CCl4 solvent. For extraction experiments prepared stock solution of organic reagent 1×10-2M (BDPI)in Chloroform prepared by dissolving 0.459 from (BDPI)in 100ml of CHCl3. III. SYNTHESIS OF ORGANIC REAGENT The organic reagents was synthesized according to the procedure published elsewhere[5] by dissolving (2.28 g 0.01 mole) of 4-bromo-2, 6-diethyl aniline..In a solution of 4 mL concentration HCl and 25 mL
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