How to cite this paper
Singare, P. (2014). Ion-Isotopic Exchange Reaction Kinetics using Anion Exchange Resins Dowex 550A LC and Indion-930A.Current Chemistry Letters, 3(3), 157-166.
Refrences
1. Sood D.D., Reddy A.V.R., and Ramamoorthy N. (2004) Applications of radioisotopes in physico-chemical investigations, in: Fundamentals of Radiochemistry, Indian Association of Nuclear Chemists and Allied Scientists (IANCAS), 253-263.
2. Radiotracer Applications in Industry — A Guidebook (2004) Technical Reports Series No.423, IAEA, Vienna.
3. Clark M.W., Harrison J.J., and Payne, T.E. (2011) The pH-dependence and reversibility of uranium and thorium binding on a modified bauxite refinery residue using isotopic exchange techniques. J. Colloid Interf. Sci., 356, 699-705.
4. Dagadu, C.P.K., Akaho, E.H.K., Danso, K.A., Stegowski, Z., and Furman, L. (2012) Radiotracer investigation in gold leaching tanks. Appl. Radiat. Isotopes, 70, 156–161.
5. Koron, N., Bratkic, A., Ribeiro Guevara, S., Vahcic, M., and Horvat, M. (2012) Mercury methylation and reduction potentials in marine water: An improved methodology using 197Hg radiotracer. Appl. Radiat. Isotopes, 70, 46-50 (2012).
6. Meng, X., and Weiguo, L. (2011) An improved method of ion exchange for nitrogen isotope analysis of water nitrate. Anal. Chim. Acta, 686, 107-114
7. Randriamanantsoa, L., Morel, C., Rabeharisoa, L., Douzet, J.M., Jansa, J., and Frossard, E. (2013) Can the isotopic exchange kinetic method be used in soils with a very low water extractable phosphate content and a high sorbing capacity for phosphate ions? Geoderma, 200, 120-129.
8. Mochizuki, K., Munakata,K., Wajima,T., Hara,K., Wada,K., Shinozaki,T., Takeishi,T., Knitter, R., Bekris, N., and Okuno, K. (2010) Study of isotope exchange reactions on ceramic breeder materials deposited with noble metal. Fusion Eng. Des., 85, 1185-1189.
9. Li, Z., Chansaenpak, K., Liu, S., Wade, C.R., Conti, P.S., and Gabbaï, F.P. (2012) Harvesting 18F-fluoride ions in water via direct 18F– 19F isotopic exchange: radiofluorination of zwitterionic aryltrifluoroborates and in vivo stability studies. Med. Chem. Comm., 3, 1305-1308.
10. Singare, P.U., and Lokhande, R.S. (2012) Studies on ion-isotopic exchange reactions using nuclear grade ion exchange resins. Ionics, 18, 351–357.
11.Lokhande, R.S., and Singare, P.U. (2007) Comparative study on ion-isotopic exchange reaction kinetics by application of tracer technique. Radiochim. Acta, 95, 173-176.
12.Lokhande, R.S., Singare, P.U., and Patil, V.V. (2008) Application of radioactive tracer technique to study the kinetics and mechanism of reversible ion-isotopic exchange reaction using strongly basic anion exchange resin Indion -850. Radiochemistry, 50, 638-641.
13. Lokhande, R.S., and Singare, P.U. (2008) Comparative study on iodide and bromide ion-isotopic exchange reactions by application of radioactive tracer technique. J. Porous Mater., 15, 253-258.
14. Lokhande, R. S., Singare, P. U., and Dole, M. H. (2006) Comparative study on bromide and iodide ion-isotopic exchange reactions using strongly basic anion exchange resin Duolite A-113. J. Nuclear and Radiochemical Sciences, 7, 29-32.
15. Heumann, K.G., and Baier, K. (1982) Chloride distribution coefficient on strongly basic anion-exchange resin: Dependence on co-ion in alkali fluoride solutions. Chromatographia, 15, 701-703.
16. Singare, P.U., Lokhande, R.S., Patil, V.V., Prabhavalkar, T. S., and Tiwari, S. R. D. (2010) Study on distribution coefficient of bromide ions from aqueous solution on ion exchange resins Indion-850, Indion-860 and Indion FF-IP. Eur. J. Chem., 1, 47-49.
17. Adachi, S., Mizuno, T., and Matsuno, R. (1995) Concentration dependence of the distribution coefficient of maltooligosaccharides on a cation-exchange resin. J. Chromatogr. A, 708, 177-183.
18. Shuji, A., Takcshi, M., and Ryuichi, M. (1996) Temperature dependence of the distribution coefficient of maltooligosaccharides on cation-exchange resin in Na+ form. Biosci. Biotechnol. Biochem., 60, 338-340.
2. Radiotracer Applications in Industry — A Guidebook (2004) Technical Reports Series No.423, IAEA, Vienna.
3. Clark M.W., Harrison J.J., and Payne, T.E. (2011) The pH-dependence and reversibility of uranium and thorium binding on a modified bauxite refinery residue using isotopic exchange techniques. J. Colloid Interf. Sci., 356, 699-705.
4. Dagadu, C.P.K., Akaho, E.H.K., Danso, K.A., Stegowski, Z., and Furman, L. (2012) Radiotracer investigation in gold leaching tanks. Appl. Radiat. Isotopes, 70, 156–161.
5. Koron, N., Bratkic, A., Ribeiro Guevara, S., Vahcic, M., and Horvat, M. (2012) Mercury methylation and reduction potentials in marine water: An improved methodology using 197Hg radiotracer. Appl. Radiat. Isotopes, 70, 46-50 (2012).
6. Meng, X., and Weiguo, L. (2011) An improved method of ion exchange for nitrogen isotope analysis of water nitrate. Anal. Chim. Acta, 686, 107-114
7. Randriamanantsoa, L., Morel, C., Rabeharisoa, L., Douzet, J.M., Jansa, J., and Frossard, E. (2013) Can the isotopic exchange kinetic method be used in soils with a very low water extractable phosphate content and a high sorbing capacity for phosphate ions? Geoderma, 200, 120-129.
8. Mochizuki, K., Munakata,K., Wajima,T., Hara,K., Wada,K., Shinozaki,T., Takeishi,T., Knitter, R., Bekris, N., and Okuno, K. (2010) Study of isotope exchange reactions on ceramic breeder materials deposited with noble metal. Fusion Eng. Des., 85, 1185-1189.
9. Li, Z., Chansaenpak, K., Liu, S., Wade, C.R., Conti, P.S., and Gabbaï, F.P. (2012) Harvesting 18F-fluoride ions in water via direct 18F– 19F isotopic exchange: radiofluorination of zwitterionic aryltrifluoroborates and in vivo stability studies. Med. Chem. Comm., 3, 1305-1308.
10. Singare, P.U., and Lokhande, R.S. (2012) Studies on ion-isotopic exchange reactions using nuclear grade ion exchange resins. Ionics, 18, 351–357.
11.Lokhande, R.S., and Singare, P.U. (2007) Comparative study on ion-isotopic exchange reaction kinetics by application of tracer technique. Radiochim. Acta, 95, 173-176.
12.Lokhande, R.S., Singare, P.U., and Patil, V.V. (2008) Application of radioactive tracer technique to study the kinetics and mechanism of reversible ion-isotopic exchange reaction using strongly basic anion exchange resin Indion -850. Radiochemistry, 50, 638-641.
13. Lokhande, R.S., and Singare, P.U. (2008) Comparative study on iodide and bromide ion-isotopic exchange reactions by application of radioactive tracer technique. J. Porous Mater., 15, 253-258.
14. Lokhande, R. S., Singare, P. U., and Dole, M. H. (2006) Comparative study on bromide and iodide ion-isotopic exchange reactions using strongly basic anion exchange resin Duolite A-113. J. Nuclear and Radiochemical Sciences, 7, 29-32.
15. Heumann, K.G., and Baier, K. (1982) Chloride distribution coefficient on strongly basic anion-exchange resin: Dependence on co-ion in alkali fluoride solutions. Chromatographia, 15, 701-703.
16. Singare, P.U., Lokhande, R.S., Patil, V.V., Prabhavalkar, T. S., and Tiwari, S. R. D. (2010) Study on distribution coefficient of bromide ions from aqueous solution on ion exchange resins Indion-850, Indion-860 and Indion FF-IP. Eur. J. Chem., 1, 47-49.
17. Adachi, S., Mizuno, T., and Matsuno, R. (1995) Concentration dependence of the distribution coefficient of maltooligosaccharides on a cation-exchange resin. J. Chromatogr. A, 708, 177-183.
18. Shuji, A., Takcshi, M., and Ryuichi, M. (1996) Temperature dependence of the distribution coefficient of maltooligosaccharides on cation-exchange resin in Na+ form. Biosci. Biotechnol. Biochem., 60, 338-340.