Ligand exchange chromatography and recovery of some metal ions on PAN sorbed Tin(IV) silicate...
1
Short communications Kurze Mitteilungen Ligand Exchange Chromatography and Recovery of some Metal Ions on PAN Sorbed Tin(IV) Silicate Columns Dhruv Kumar Singh and Rishi Raj Bhatnagar Department of Chemistry, Harcourt Butler Technological Institute, Kanpur-208 002, India Liganden-Austausch-Chromatographie: Trennung yon Metallionen an mit PAN getr/inkten Zinn(IV)-silicat-S/iulen In the ligand exchange column-chromatographic separations of metal ions developed, an inorganic ion-exchanger [tin(IV) silicate] sorbed with PAN [1-(2-pyridyl-azo)-2-naphthol] is utilized. Tin(IV) silicate was prepared [1] by mixing 0.04 tool/1 stannic chloride and 0.15 tool/1 sodium silicate in the volume ratio 4:1 at pH 8.5. The exchanger (60-100 mesh) was sorbed with PAN (0.1% for 24 h). Rate of sorption studies for Cu 2+ and Fe 3+ reveal that equilibrium is attained within 5 min only due to the chelating agent (PAN). The results of distribution studies of 12 metal ions in different pH-systems are presented in Table 1. The exchanger has been found to be selective for Ni 2+. The reason for selective sorption and desorption of certain metal ions can be attributed to large differences in stability constants of metal-PAN complexes at certain pH values. The elution is based on the stability constant of the metal eluting ligand complex. The quantitative separations possible (Table 2) include Co z + -Ni 2 +, Cu z +-Ni 2 +, Pt 4 +-Ni z +, Pt 4 +-Fe 3+, Ag +- Cu 2 +, Mn 2 +-Zn 2+ and Pb 2 +-Cd 2 +. The recovery of Pt 4 + and Au 3+ (1 -5 mg) from dilute solutions in the presence of Co 2+, Table 1. Kda-values of metal ions Metal ions pH 2 pH 4 pH 6 pH 8 pH 10 Co 2+ 27.5 100.2 150.0 208.7 46.2 Ni 2+ 1,375 T.A. T.A. T.A. 150.0 Cu 2+ 18.6 132.0 350.0 81.3 3.4 Fe 3+ 78.2 130.2 250.0 - - Mn 2+ 0.0 33.6 87.5 98.2 -- Pb 2+ 10.2 66.5 75.0 90.5 2.8 Zn 2+ 42.6 83.2 128.7 73.2 0.0 Cd / + 20.8 51.3 200.0 203.3 125.0 Hg 2 + 3.0 41.2 80.0 -- -- Au 3+ 23.0 160.2 196.2 148.2 0.2 Pt 4+ 0.0 0.5 0.8 0.8 0.8 Ag + 90.8 296.8 375.0 - 0.0 a Kd Amount of metal ion in exchanger phase g- 1 Amount of metal ion in solution phase cm- 3 Ni 2+, Ca 2 + and Fe 2 + (5 mg each) has also been studied at pH 2. Acknowledgement. The authors are thankful to Professor A. K. Vasishtha, Director and Professor R. S. Tewari, Head, Depart- ment of Chemistry, Harcourt Butler Technological Institute, Kanpur-208002, India, for providing research facilities. Reference 1. Desai G-T, Baxi D-R (1978) J Technol 16:201 Received August 29, 1985; revised October 7, 1985 Table 2 Separations on PAN-sorbed tin(IV) silicate columns Offprint requests to." Dhruv Kumar Singh Sample Mixture Eluent Eluate Amount Amount (ml) loaded recovered (gg) (gg) Percentage error 1 Co 2+ A 50 250.6 253.1 0.99 Ni z+ B 90 248.4 243.0 2.18 2 Cu 2 + C 40 460.5 468.0 1.63 Ni 2+ B 90 248.4 243.6 1.93 3 Pt 4+ D 50 256.7 252.0 1.83 Ni 2+ B 110 352.6 361.1 2.41 4 Pt 4+ D 60 375.0 365.9 2.42 Fe 3+ C 70 406.6 414.2 1.87 5 Ag + E 60 304.0 300.0 1.31 Cu 2+ C 50 460.5 467.4 1.50 6 Mn 2+ A 40 373.2 368.5 1.26 Zn 2+ C 70 240.8 244.6 1.58 7 Pb 2+ C 60 414.3 406.7 1.83 Cd z+ A 80 402.9 413.8 2.70 Abbreviations used: A 0.01 tool/1 HC1; B 0.05 mol/1 EDTA in 0.01 mol/1 HC1; C 4 mol/1 NH3; D Demineralized water; E 0.1 mol/1 NH3 Fresenius Z Anal Chem (1986) 325:195 Springer-Verlag 1986 195
-
Upload
dhruv-singh -
Category
Documents
-
view
213 -
download
0
Transcript of Ligand exchange chromatography and recovery of some metal ions on PAN sorbed Tin(IV) silicate...
Short communications Kurze Mitteilungen
Ligand Exchange Chromatography and Recovery of some Meta l Ions on P A N Sorbed Tin(IV) Sil icate Columns Dhruv Kumar Singh and Rishi Raj Bhatnagar
Department of Chemistry, Harcourt Butler Technological Institute, Kanpur-208 002, India
Liganden-Austausch-Chromatographie: Trennung yon Metallionen an mit PAN getr/inkten Zinn(IV)-silicat-S/iulen
In the ligand exchange column-chromatographic separations of metal ions developed, an inorganic ion-exchanger [tin(IV) silicate] sorbed with PAN [1-(2-pyridyl-azo)-2-naphthol] is utilized. Tin(IV) silicate was prepared [1] by mixing 0.04 tool/1 stannic chloride and 0.15 tool/1 sodium silicate in the volume ratio 4:1 at pH 8.5. The exchanger (60-100 mesh) was sorbed with PAN (0.1% for 24 h). Rate of sorption studies for Cu 2+ and Fe 3 + reveal that equilibrium is attained within 5 min only due to the chelating agent (PAN). The results of distribution studies of 12 metal ions in different pH-systems are presented in Table 1. The exchanger has been found to be selective for Ni 2 +. The reason for selective sorption and desorption of certain metal ions can be attributed to large differences in stability constants of metal-PAN complexes at certain pH values. The elution is based on the stability constant of the metal eluting ligand complex. The quantitative separations possible (Table 2) include Co z + -Ni 2 +, Cu z +-Ni 2 +, Pt 4 +-Ni z +, Pt 4 +-Fe 3 +, Ag +- Cu 2 +, Mn 2 +-Zn 2 + and P b 2 + - C d 2 +. The recovery of Pt 4 + and Au 3 + (1 - 5 mg) from dilute solutions in the presence of Co 2 +,
Table 1. Kda-values of metal ions
Metal ions pH 2 pH 4 pH 6 pH 8 pH 10
C o 2+ 27.5 100.2 150.0 208.7 46.2 Ni 2+ 1,375 T.A. T.A. T.A. 150.0 Cu 2+ 18.6 132.0 350.0 81.3 3.4 Fe 3+ 78.2 130.2 250.0 - - M n 2+ 0.0 33.6 87.5 98.2 -- Pb 2+ 10.2 66.5 75.0 90.5 2.8 Zn 2+ 42.6 83.2 128.7 73.2 0.0 Cd / + 20.8 51.3 200.0 203.3 125.0 H g 2 + 3.0 41.2 80.0 -- -- Au 3+ 23.0 160.2 196.2 148.2 0.2 Pt 4+ 0.0 0.5 0.8 0.8 0.8 Ag + 90.8 296.8 375.0 - 0.0
a Kd Amount of metal ion in exchanger phase �9 g- 1
Amount of metal ion in solution phase �9 cm- 3
N i 2+, C a 2 + and Fe 2 + (5 mg each) has also been studied at pH 2.
Acknowledgement. The authors are thankful to Professor A. K. Vasishtha, Director and Professor R. S. Tewari, Head, Depart- ment of Chemistry, Harcourt Butler Technological Institute, Kanpur-208002, India, for providing research facilities.
Reference 1. Desai G-T, Baxi D-R (1978) J Technol 16:201
Received August 29, 1985; revised October 7, 1985
Table 2 Separations on PAN-sorbed tin(IV) silicate columns
Offprint requests to." Dhruv Kumar Singh
Sample Mixture Eluent Eluate Amount Amount (ml) loaded recovered
(gg) (gg)
Percentage error
1 C o 2+ A 50 250.6 253.1 0.99 Ni z+ B 90 248.4 243.0 2.18
2 Cu 2 + C 40 460.5 468.0 1.63 N i 2+ B 90 248.4 243.6 1.93
3 Pt 4+ D 50 256.7 252.0 1.83 Ni 2+ B 110 352.6 361.1 2.41
4 Pt 4+ D 60 375.0 365.9 2.42 Fe 3 + C 70 406.6 414.2 1.87
5 Ag + E 60 304.0 300.0 1.31 Cu 2+ C 50 460.5 467.4 1.50
6 M n 2+ A 40 373.2 368.5 1.26 Z n 2+ C 70 240.8 244.6 1.58
7 Pb 2+ C 60 414.3 406.7 1.83 Cd z+ A 80 402.9 413.8 2.70
Abbreviations used: A 0.01 tool/1 HC1; B 0.05 mol/1 EDTA in 0.01 mol/1 HC1; C 4 mol/1 NH3; D Demineralized water; E 0.1 mol/1 NH3
Fresenius Z Anal Chem (1986) 325:195 �9 Springer-Verlag 1986
195
