Kinetics and Mechanisms of the Reduction of Some Carbonyl Compounds with Sodium Dithionite in Aqueous Alkaline Medium
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Burlamacchi L., Guarini G., Tiezzi E. Mechanism of decomposition of
sodium dithionite in aqueous solution, Trans Faraday Soc. 1969; 65: 496–502p.
Davies D.M., Lawther M.J. Kinetics and mechanism of electron transfer from dithionite to microsomal cytochrome B5 and to forms of the protein associated with charged and neutral vesicles, J Biochem. 2009; 253: 375–80p.
Mattews A.J., Brittain T. Some electron transfer reactions involving carbodi-imide-modified cytochrome C, J Biochem. 1987; 243: 379–84p.
Brunori M., Antonini G., Wilson M.T. Metal Ions in Biological Systems: Copper Proteins. Sigel H. (Ed.), New York and Basel: Marcel Dekker; 1981.
Vollhardt P.K.C., Schore N.E. Organic Chemistry: Structure and Function. 5th Edn., New York: W.H. Freeman And Company; 2007.
Burke S.D., Danheiser R.L. Handbook of Reagents for Organic Synthesis, Oxidizing and Reducing Agents. New York: Wiley-VCH; 1999.
Http://www.Google.Com/M = Reduction/Sodiumdithionite/Client.
Larock R.C. Comprehensive Organic Transformations: A Guide to Functional Group Preparations. 2nd Edn., New York: Wiley-VCH; 1999.
John D. Facts on File: Dictionary of Inorganic Chemistry. New York: Market House Books Ltd.; 2004.
Http://www.OrganicChemistry.Org/Chemicals/Reducatio n /Sodiumhydrosulfite.Shtm.
Benson D. Mechanism of Inorganic Reactions in Solutions. London: Mcgraw-Hill Pub. Com.; 1981.
Therien M.J., Bowler B.E., Gray H.B., et al. Electron transfer in inorganic, organic and biological systems, J A Chem. Soc. 1991; 191– 9p.
Morrison R.T., Boyd R.N. Organic Chemistry. 6th Edn., India: Pearson Education; 2004.
Holleman A.F., Wilberg E. Inorganic Chemistry. San Diego: Academic Press; 2001.
Finar I.L. Organic Chemistry. 6th Edn., Singapore: Pearson Education; 1988.
Felix A.C. Perspectives on Structure and Magnetism In Organic Chemistry. USA: Brooks/Cole Pub. Com.; 1998.
Mcmurry J. Organic Chemistry. 7th Edn., USA: Brooks/Cole Pub. Com.; 1998.
Ahluwalia V.K., Madhuri G. A Text Book of Organic Chemistry. India: Narosa Pub. House; 2000.
Vries G.J., Van Bergen T.J., Kellog M.R. Sodium dithionite as a reductant for aldehydes and ketones, J A Chem Soc. 1996; 856.
Jones D.G., Jones M.G., Wilson M.T., et al. Reactions of cytochrome c oxidase with sodium dithionite, J Biochem. 1983; 209: 175–82p.
Carol C., Sutin N. Reduction of ferricytochrome C. by dithionite ion: electron transfer by parallel adjacent and remote pathways, Proc Nat Acad Sci USA. 1973; 70(6): 1701–3p.
Ukoha P.O., Atiga S., Ujam T.O., et al. Kinetics and mechanism of electron transfer of an adipato bridged iron(III)-salen complex with dithionite ion in perchloric acid medium, Croat Chem Acta. 2015; 88(3): 259–66p.
Albert H., Robert G.J., Wayne K.W. Mechanism of substitution reactions of cobalt III cyanide complexes, J A Chem Soc. 1983; 2: 31–54p.
Iyun J.F., Ukoha P.O. Kinetics and mechanism of oxidation of 1,3dihydroxybenzene by trioxoiodate(V) ion in aqueous perchloric acid medium, Indian J Chem. 1999; 38(2): 180–2p.
Hamza S.A., Iyun J.F., Idris S.O. Kinetics and mechanism of toluidine blue reduction by dithionite ion in aqueous acidic medium, J Chem Pharm Res. 2012; 4(1): 6–13p.
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