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Shawali, A. S., A. A. Harhash, M. M. Sidky, H. M. Hassaneen, and S. S. Elkaabi, "Kinetics and Mechanism of Aminolysis of Carbamates.", J. Org. Chem., vol. 51, pp. 3498-3501, 1986.
Badawy, W. A., M. M. Ibrahim, M. M. Abou-Romia, and M. S. El-Basiouny, ""Kinetics Studies on the Dissolution Behaviour of Anodic Oxide Films on Aluminium in KF Solutions".", Corrosion, vol. 42, pp. 324, 1986.
Badawy, W. A., A. G. Gad-Alla, and H. H. Rehan, "Kinetics of the Dissolution Behaviour of Anodic Oxide Films on Niobium in NaOH Solutions".", J. Appl. Electrochem. 17 (1987) 559, vol. 17, pp. 559, 1987.
AbdelRahman, S., A. H. A. El-Rahman, and M. M. Abou-Romia, "A kinetic study on the corrodability of anodic oxide films formed on molybdenum in NaOH solutions", Journal of Applied Electrochemistry, vol. 18, issue 1, pp. 86-91, 1988. a_kinetic_study_on_the_corrodability.pdf
Allah, G. A. G., A. H. A. El-Rahman, and M. M. Abou-Romia, "A Kinetic Study on the Corrodability of Anodic Oxide Films Formed on Molybdenum in NaOH Solutions", J. Appl. Electrochem, issue 18, 1988.
Ahmed, O. A. A., S. M. Badr-Eldin, and T. A. Ahmed, "Kinetic study of the in vitro release and stability of theophylline floating beads", Int J Pharm Pharm Sci, vol. 5, issue 1, pp. 1-6, 2013.
Hassib, H. B., N. S. Abdel-Kader, and Y. M. Issa, "Kinetic Study of the Hydrolysis of Schiff Bases Derived from 2-Aminothiophenol", J Solution Chem, vol. 41, pp. 2036–2046, 2012.
Hassib, H. B., N. S. Abdel-Kader, and Y. M. Issa, "Kinetic study of the hydrolysis of Schiff bases derived from 2-Amino-thiophenol", J. Sol. Chem., vol. 41, pp. 2036-2046 , 2012.
Ghobashy, M., M. Gadallah, T. T. El-Idreesy, M. A. Sadek, and H. A. Elazab, "Kinetic study of hydrolysis of ethyl acetate using caustic soda", International Journal of Engineering & Technology, vol. 7, issue 4, pp. 19995-1999, 2018.
Hefny, M. M., A. S. Mogoda, S. A. Salih, and H. E. El-Kiky, "Kinetic study of currentless dissolution of bismuth oxide film in aqueous solution containing electroactive species.", Thin solid films , vol. 204, pp. 193, 1991.
Ellaithy, M. M., N. A. El-Ragehy, and M. A. El-Ghobashy, "Kinetic study of alkaline induced hydrolysis of the skeletal muscle relaxant chlorzoxazone using ratio spectra first derivative spectrophotometry", Il Farmaco, vol. 58, no. 4: Elsevier, pp. 337–342, 2003. Abstract
Zaazaa, H. E., M. M. Abdelrahman, N. W. Ali, M. A. Magdy, and M. Abdelkawy, "Kinetic study and mechanism of Niclosamide degradation", Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, vol. 132 , pp. 655-662, 2014.
Mogoda, A. S., M. M. Hefny, G. A. El-Mahdy, and M. S. El-Basiouny, "Kinetic studies on the formation and dissolution of the anodic oxide film of tungsten in formic acid solutions.", Bull Soc Chim Fr, vol. 128, pp. 155, 1991.
Heakal, E. - T. F., A. S. Mogoda, A. A. Mazhar, and M. S. El-Basiouny, "Kinetic studies on the dissolution of the anodic oxide film on titanium in phosphoric acid solutions ", Corrosion Science, vol. 27, issue 5, pp. 453-462, 1987.
Sayyah, S. M., M. Rehahn, A. H. M. Elwahy, and M. T. H. Abou-Kana, "Kinetic studies on the dilatometric-free radical copolymerization of new modified laser dye monomer with methyl methacrylate and characterization of the obtained copolymer", Journal of applied polymer science, vol. 112, no. 4: Wiley Online Library, pp. 2462–2471, 2009. Abstract
Alamein, A. M. A. A., "Kinetic Spectrophotometric Determination of Zafirlukast in Bulk and in Drug Formulations", Life Science Journal; Life Sci J 2012, vol. 9, issue 4, pp. 2693-2701, 2012.
Allah, G. A. G., A. H. A. El-Rahman, W. A. Badawy, and M. M.Abou-Romia, "Kinetic of Passivation of Valve Metal in Deaerated Salt Solutions", B. Electrochem, issue 4, 1988.
Selim, K. A., F. H. A. El-Rahiem, and A. A. El-Midany, "Kinetic Modelling and Equilibrium of Amphoteric Collector Adsorption on Silica and Hematite", Tenside Surfactants Detergents Journal For Theory Technology And Application, vol. 46, no. 2, pp. 85, 2009. Abstract
Ali, A., R. B. Mahar, E. M. Abdelsalam, and S. T. H. Sherazi, "Kinetic modeling for bioaugmented anaerobic digestion of the organic fraction of municipal solid waste by using Fe3O4 nanoparticles", Waste and biomass valorization, vol. 10, no. 11: Springer Netherlands, pp. 3213–3224, 2019. Abstract
Mohammed, A. A., S. - E. K. Fateen, T. S. Ahmed, and T. M. Moustafa, "A kinetic model for ethylene oligomerization using zirconium/aluminum- and nickel/zinc-based catalyst systems in a batch reactor", Applied Petrochemical Research, 2014.
Mohammed, A. A., S. - E. K. Fateen, T. S. Ahmed, and T. M. Moustafa, "A Kinetic Model for Ethylene Oligomerization Using Zirconium/Aluminum- and Nickel/Zinc-Based Catalyst Systems in a Batch Reactor", Applied Petrochemical Research, vol. 4, issue 3: Springer, pp. 287-295, 2014. Abstract


Goss, D. J., L. J. Parkhurst, and H. Görisch, "Kinetic light scattering studies on the dissociation of hemoglobin from Lumbricus terrestris.", Biochemistry, vol. 14, issue 25, pp. 5461-4, 1975 Dec 16. Abstract

The kinetics of the pH-induced dissociation of the 3 X 10(6) mol wt hemoglobin from Lumbricus terrestris (the earthworm) have been studied in a light-scattering stopped-flow apparatus. The ligand dependent dissociation data were fit well by a simple sequential model. The data for CO and oxyhemoglobin are consistent with Hb12 leads to 2Hb6 leads to 12Hb. Methemoglobin at pH 7 appears to be hexameric and the dissociation is consistent with the model: Hb6 leads to 6Hb. In a sequential decay scheme for which light-scattering changes are monitored, the relative amounts of rapid and slow phase are determined by the rate constants as well as the molecular weights of intermediate species. Assignment of the hexameric intermediate is supported by an investigation of the sensitivity of the theoretical kinetic curves to the molecular weights of the intermediates. This assignment is further supported by the following: (1) the same model will fit the data for oxy- and CO-hemoglobin at all three temperatures (a 24-29-fold variation in rate constants), (2) evidence from electron microscopy shows hexameric forms, and (3) methemoglobin is apparently stable as a hexamer at pH 7. When CO replaces O2 as the ligand, the dissociation rate increases by a factor of four. The met is about 20 times faster than the initial oxyhemoglobin dissociation rate, but perhaps more relevant for comparing dissociation of the hexamer, the met rate was respectively 100 times and 500 times faster than that for the assumed hexameric forms of CO- and oxy-hemoglobin. The activation energies for the dodecamer to hexamer dissociation and for the dissociation of the hexamer to smaller forms were about 30 kcal/mol for oxy-, CO-, and methemoglobin.

, "Kinetic energy release in unimolecular ion decomposition of substituted benzophenones ", Indian journal of pure and applied physics, vol. 30, pp. 376-379, 1992.