الاستخلاص والتقدير الطيفي لايونات Zn (II) وLa (III) وCe (III) باستعمال كواشف عضويه جديدة في نماذج تحليله مختلفة == Extraction and Spectrophotometric determination of Zn(II),La(III) and Ce(III) Ions using New Organic Reagent in Different analytical Samples
Author name:
سحر عقيل حسين الاعسم
Supervisor name:
رافع قدوري الكبيسي | تغريد هاشم النور
General topic:
Chemistry
Specific topic:
Chemistry
Degree:
Doctorate
University:
University of Baghdad
Language:
English
University location:
Baghdad
First pages:
25T1890 - p.pdf
Abstract:
Three organic reagents were synthesized 2 - [4 - bromo - 3,5 - diethyl phenyl azo] - 4,5diphenylimidazole(BDPI) , 2 - [(4 - Benzyloxy phenyl)azo] - 5 - nitro - 4 - phenyl imidazol(BANI),4 - [N - (5 - methylisoxazol - 3 - yl) benzene sulfonamide azo] - 1 - Naphthol (AMBN) ,which are utilized for separation , extraction and spectrophotometric determination Zinc(II) ,Lanthanum(III) and Cerium(III) as cations according to liquid - liquid extraction method , depending on the measurement of absorption of ion pair complex extracted at maximum wavelength (λmax )and calculation distribution ratio (D).This study involves limitation of optimum conditions for complex formation as well extraction as pH. as well the experiment showes optimum pH for extraction Zn(II) with [(BDPI), (BANI),(AMBN)] (pH=8,9,9) respectively but for La(III) was (pH=11,10,10) with [(BANI) ,(BDPI), (AMBN)] respectively as well (pH=9,9,8) for Ce(III) with [(AMBN)(BDPI)(BANI)].The study about metal ions concentration effect on extraction methods illustrates 50μg/5mL Zn2+ appropriate concentration obtaining higher absorbance for ion pair complex extracted to organic solution as well higher distribution ratio (D) with all organic reagents , and for La3+ was 80μg/5mL with all organic reagents also 100μg/5mL Ce3+ all organic reagents.Kinetic energy has significant role in extraction. method according to liquid - liquid extraction , as well the study show effect of shaking time of two layers on qualify of extracted and explains 10 min which were appropriate shaking time for Zn(II), La(III) and Ce(III) with all organic reagents to give higher distribution ratio (D) as well higher absorbance of ion pair complex extracted to organic phase.Stoichiometry study about definition is more possible structure of ion pair complex extracted by the performance of four spectrophotometric method for extraction Zn2+ , La3+ and Ce3+ by [(BDPI), (BANI),(AMBN)] under optimum conditions as well all experiments show the structure of ion pair complex extracted was [1 : 1] [M : L][Zn (AMBN ) ] 1+ ;Cl - [Zn (BANI) ] 2+ ;2Cl - [Zn(BDPI )]2+ ;2Cl - [La(BDPI)]+3; 3NO3 - [La(AMBN)]+2; 2NO3 - [La (BANI)] 3+;3NO3 - [Ce(BANI) ]3+ ; 3NO3 - [Ce(BDPI) ]3+ ; 3NO3 - [Ce(AMBN )]2+ ;2NO3 - Organic solvent effect study shows there are not any linear relation between distribution ratio (D) and dielectric constant (ε) of organic solvents that means there is not any impact for polity of organic solvent on extraction method however there is an impact for organic solvent structure which is participation in the structure of ion pair complex extracted by formation loose ion pair or tight ion pair, and experiment result demonstrate organic solvent (CH3Cl) was the better organic solvent in extraction Zn(II) ,La(III) and Ce(III) by all organic reagents.Thermodynamic study involves temperature impact on extraction efficiency the experimental results explain the reactions were exothermic for Zn(II) ,La(III) and Ce(III) with all organic reagents [(BDPI), (BANI),(AMBN)] after calculating thermodynamic data ΔHex and ΔGex , ΔSex appear entropy values which were high that means complexation reaction is entropic in region .This study is about effect of methanol in aqueous phase on extraction method of metal in aqueous phase on extraction method of metal cation Zn2+, La3+ and Ce3+ by [(BDPI), (BANI),(AMBN)] the results show foundation of methanol in aqueous phase with metal cations obtaining enhancement in D as well this increase continues to reach optimum concentration of methanol next this value distribution ratio (D) decreases .The study of electrolytic salts is about extraction method of Zn2+ , La3+ and Ce3+ by [(BDPI), (BANI),(AMBN)] to clarify metal cations of firstgroup which gave high absorbance and distribution ratio D because they have high affinities towards the water withdrawing in sequence of Li+ > Na+ >K+. Since the ionic radius of lithium is very small and has high charge density, it has a hydration shell with more thickness than Na and K, thereby it has high capability for withdrawing of more water molecules from the hydration shell of metal. This case proved that the extraction efficiency increases with the decrease of ionic radius. Whilst for the salts which contain ions of second group like Mg and Ca, the extraction efficiency was found to be relatively less than that incase of first group of the electrolytic salts. This is because the thickness of hydration shell is less than of the first group ions despite the fact that the higher charge density on the second group ionThe study about synergism is by using (TBP) and (MBK) in the extraction the experimental results show TBP and MIBK which gave increase in distribution ratio (D) through participate molecular of these solvents in the structure of ion pair complex extracted install of water molecular in coordination shell of metal cation and the results show there is one molecular of [TBP or MIBK] participate in ion pair complex extractionThis study involved using organic reagent [(BDPI), (BANI),(AMBN)] for spectrophotometric determination of Zn2+ , La3+ and Ce3+ in different environmental ,vital and waste electronic equipment samples
