[Devra, V., 2005, Kinetics and mechanism of silver (I) catalyzed oxidation of alanine by cerium (IV) in perchloric acid medium. Journal of the Indian Chemical Society 82, 290-294.]Search in Google Scholar
[Elias, H., 1992, RG Wilkins: Kinetics and Mechanism of Reactions of Transition Metal Complexes, 2nd Thoroughly Revised Edition. VCH, Weinheim 1991. ISBN 3-527-28389-7. 482 Seiten. Preis (Softcover): DM 68.00. Berichte der Bunsengesellschaft für physikalische Chemie 96, 638-639.10.1002/bbpc.19920960429]Search in Google Scholar
[Goel, A., Sharma, R., 2012, A kinetic and mechanistic study on the oxidation of arginine and lysine by hexacyanoferrate (III) catalysed by iridium (III) in aqueous alkaline medium. Journal of Chemical Engineering and Materials Science 3, 1-6.10.5897/JCEMS11.049]Search in Google Scholar
[Goel, A., Sharma, S., 2010, Mechanistic study of the oxidation of lphenylalanine by hexacyanoferrate (III) catalyzed by iridium (III) in aqueous alkaline medium. Transition Metal Chemistry 35, 549-554.10.1007/s11243-010-9362-1]Search in Google Scholar
[Goel, A., Verma, G., Singh, H., 2002, Kinetics and mechanism of iridium (III) chloride catalyzed oxidation of ethylene glycol and methyl glycol by hexacyanoferrate (III) in aqueous alkalinemedium. Journal of the Indian Chemical Society 79, 665-667.]Search in Google Scholar
[Gowda, N.M.M., Rangappa, K.S., Mahadevappa, D.S., 1986, Oxidimetric determination of amino acids and their metal complexes with organic monochloramines. Analyst 111, 1423-1429.10.1039/an98611014233826641]Search in Google Scholar
[Gupta, K., Gupta, Y., 1984, Hydrogen-Ion dependence of Reaction Rates and mechanism. J. Chem. Educ 61, 972.10.1021/ed061p972]Search in Google Scholar
[Harihar, A., Kembhavi, M., Nandibewoor, S., 2000, Kinetics of oxidative degradation of L (+) lysine by alkaline permanganate-A mechanistic approach.10.1515/irm-2001-0105]Search in Google Scholar
[Hosamani, R., Nandibewoor, S., 2009, Mechanistic study of ruthenium (III) catalysed oxidation of L-lysine by diperiodatoargentate (III) in aqueous alkaline medium. Journal of chemical sciences 121, 275-281.10.1007/s12039-009-0030-y]Search in Google Scholar
[Iyun, J., Ayoko, G., Lawal, H., 1992, The Stoichiometry And Kinetics Of Oxidation Of 1, 4-Benzenediol By Diaquotetrakis (2, 2'-Bipyridine)-Mu-Oxodiruthenium (Iii) Cation in Perchlorate Medium. Indian Journal Of Chemistry Section A-Inorganic Bio-Inorganic Physical Theoretical & Analytical Chemistry 31, 943-946.10.1007/BF03325418]Search in Google Scholar
[Iyun, J., Ukoha, P., 1999, Kinetics and mechanism of oxidation of 1, 3- dihydroxybenzene by trioxoiodate (V) ion in aqueous perchloric acid medium.]Search in Google Scholar
[Gouda N.M.M., Mahadevappab D.S., Rangappa K.S; Thimmegouda B., 1986, Oxidimetric determination of amino acids and their metal complexes with organic monochloramies International Journal of Chemical Kinetic, 2, 165-178.]Search in Google Scholar
[Mohanty, B., Behera, J., Acharya, S., Mohanty, P., Pantaik, A., 2013, Metal ion catalyzed oxidation of L-lysine by alkaline permanganate Ion-A kinetic and mechanistic approach. Chem Sci Trans 2, 51-60.10.7598/cst2013.282]Search in Google Scholar
[Orhan B., 2009, Synthesis and structural characterization of a novel peroxo bridged binuclear cobalt(III) complex of succinimide showing three varieties of hydrogen bonding interaction. Journal of Chemical Science. 121(3), 267-273.10.1007/s12039-009-0029-4]Search in Google Scholar
[Roberts, J.D., Caserio, M.C., 1977, Basic principles of organic chemistry. WA Benjamin, Inc.]Search in Google Scholar
[Wilkins, R.G., 2002, Kinetics and mechanism of reactions of transition metal complexes, 2nd Ed. Wiley-VCH & Co]Search in Google Scholar