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AUTHOR INDEX 695 Crawford, M. A. Friedrichs, G. —; Li, Z.; Heuerman, H. A.; and Kinscherff, D.: A —,; Davidson, D. F.; and Hanson, R. K.: Validation Kinetic and Product Study of Reaction of Chlorine of a Thermal Decomposition Mechanism of Atom with CH;CH,OD, 584 Formaldehyde by Detection of CH2O and HCO Criado, J. M. See Budrugeac, P., 309 Behind Shock Waves, 157 Cueto, M. See Jiménez, R., 410 Curran, H. J. See O Conaire, M., 603 Gainza, A. H. —+; Reaction of Halogenated Hydrocarbon Solvents Davidson, D. F. See Friedrichs, G., 157 with Tertiary Amines: Spectrophotometric and Davidson, D. F. Conductimetric Study, 500 —+; Hanson, R. K.: Interpreting Shock Tube Ignition Ge, Q. Data, 510 —; Guo, Y.; Lin, H.; Lin, H.; and Zhu, S.: Ki- Davidson, D. F. See Oehlschlaeger, M. A., 67 netics and Mechanism of the Catalytic Dehydra- Davis, S. G. tion of HCO3;~ by Zinc(I1) Complexes of Tripod —; Mhadeshwar, A. B.; Vlachos, D. G.; and Wang, Ligands, 197 H.: A New Approach to Response Surface Devel- Ge, Q.-C. See Guo, Y.-H., 41 opment for Detailed Gas-Phase and Surface Reac- Gomez, L. See Jiménez, R., 627 tion Kinetic Model Optimization, 94 Gonzalez-Alatorre, G. del Mar Graciani, M. See Mufioz, M., 634 —; Guzman-Maldonado, S. H.; Escamilla-Silva, de Vicente, M. E. S. See Rubin, E., 650 E. M.; Loarca-Pifia, G.; and Benitez, C. H.: Ki- Donahue, N. M. netic Study of the Nitrosation of 1,3-Dialkylureas —+; Clarke, J. S.: Fitting Multiple Datasets in Kinetics: in Aqueous-Perchloric Acid Medium, 273 n-Butane + OH — Products, 259 Goswami, S. Doussin, J. F. See Klawatsch-Carrasco, N., 152 —+; Shaikh, N.; Panja, A.; and Banerjee, P.: A Com- Dryer, F. L. See Li, J., 566 parative Kinetic Study for the Oxidation of 2- Dwivedi, P. B. See Tandon, P. K., 545 Mercaptoethanol by Di-j-oxo-bis(1,4,7,10-tetra- azacyclododecane)dimanganese(III,IV) and El-Subruiti, G. M. Di--oxo-bis(1,4,8,1 1-tetraazacyclotetradecane)- —; Younes, G. O.; Zeitouni, F. S.; and Amira, M. F.: dimanganese(III,[1V) Complexes: Influence of Effect of Solvent and Structure on the Kinetics and Copper(II), 129 Mechanism of the Aquation of Bromopentaamine Gotor, F. J. See Budrugeac, P., 309 Cobalt(II]) Complex in Binary Aqueous Mixtures, Graciani, J. See Jiménez, R., 627 494 Grueso, E. See Jiménez, R., 410 Emokpae, T. A. Guo, Y. See Ge, Q., 197 —+; Isanbor, C.: Relative Reactivity and Kinetic Pat- Guo, Y.-H. tern of Aniline and N-Methylaniline as Nucle- —; Ge, Q.-C.; Lin, H.; Lin, H.-K.; and Zhu, S.-R.: ophiles in Aromatic Substitution (SjAr) Reac- Kinetics and Mechanism of Promoted Hydroly- tions, 188 sis of 4-Nitrophenyl Acetate by Zinc(II)-tripod: Escamilla-Silva, E. M. See Gonzalez-Alatorre, G., Different Roles of Mononuclear and Trinuclear 273 Species, 41 Espenson, J. H. See Lente, G., 449 Gupta, P. Ewais, H. A. —; Saha, R. K.: Analysis of Gas—Solid Noncat- —; Ahmed, A. E.; and Abdel-Khalek, A. A.: Kinetics alytic Reactions in Porous Particles: Finite Volume and Mechanism of Oxidation of a Ternary Com- Method, | plex Involving Dipicolinatochromium(III) and Guzman-Maldonado, S. H. See Gonzalez-Alatorre, DL-Aspartic Acid by N -Bromosuccinimide, 394 G., 273 Fan, L. See Yuangin, Z., 687 Hanrahan, R. J. See Hoag, C. M., 623 Farahani, N. S. See Nori-Shargh, D., 472 Hanson, R. K. See Davidson, D. F., 510 Feeley, R. See Frenklach, M., 57 Hanson, R. K. See Friedrichs, G., 157 Fernandez, M. E. See Jiménez, R., 627 Hanson, R. K. See Oehlschlaeger, M. A., 67 Frenklach, M. Hatakeyama, S. See Imamura, T., 379 —+; Packard, A.; Seiler, P.; and Feeley, R.: Collab- Heidbrink, J. L. orative Data Processing in Developing Predictive —; Amegayibor, F. S.; and Kenttémaa, H. I.: Gas- Models of Complex Reaction Systems, 57 Phase Radical—Radical Recombination Reactions 696 AUTHOR INDEX of Nitroxides with Substituted Phenyl Radicals, Kanthimathi, M. 216 —,; Nair, B. U.: Kinetic Investigation on the Oxidation Herbon, J. T. See Oehlschlaeger, M. A., 67 of Nitrite by Oxochromium(V) Ion in Aqueous and Hernandez, M. See Jiménez, R., 627 Micellar Systems, 79 Heuerman, H. A. See Crawford, M. A., 584 Kazakov, A. See Li, J., 566 Hoag, C. M. Kenttamaa, H. I. See Heidbrink, J. L., 216 —; Hanrahan, R.J.: Stopped-Flow Investigation of the Khader, M. M. See Al-Madfa, H. A., 293 Reaction of Hexabromoiridate(II1) with Bromine Khan, M. N. See Leng, S. Y., 316 in Aqueous Solution, 623 Khan, Z. Hollingsworth, C. A. —,; Raju; Akram, M.; and Kabir-Ud-Din: Oxidation —,; Seybold, P. G.; Kier, L. B.; and Cheng, C.-K.: of Lactic Acid by Water Soluble (Colloidal) Man- First-Order Stochastic Cellular Automata Simula- ganese Dioxide, 359 tions of the Lindemann Mechanism, 230 Kier, L. B. See Hollingsworth, C. A., 230 Hoppe, T. J. See Moore, E. R., 554 Kinscherff, D. See Crawford, M. A., 584 Hussain, A. A. See Nallu, M., 401 Klawatsch-Carrasco, N. —+; Doussin, J. F.; and Carlier, P.: Absolute Rate Con- lida, Y. See Imamura, T., 379 stants for the Gas-Phase Ozonolysis of Isoprene Illanes, J. See Jiménez, R., 410 and Methylbutenol, 152 Imamura, T. Klotz, B. See Olariu, R. I., 577 —+; lida, Y.; Obi, K.; Nagatani, 1; Nakagawa, K.; KOortvélyesi, T. See Sebdk-Nagy, K., 596 Patroescu-Klotz, I.; and Hatakeyama, S.: Rate Co- Kutsuna, S. See Chen, L., 26, 337 efficients for the Gas-Phase Reactions of OH Rad- icals with Methylbutenols at 298 K, 379 Lane, S. I. See Teruel, M. A., 525 Isanbor, C. See Emokpae, T. A., 188 Lee, H. W. See Oh, H. K., 434 Lee, I. See Oh, H. K., 434 Jacob, V. See Colomb, A., 367 Lee, J. M. See Oh, H. K., 434 Janoschek, R. Lee, S.-L. See Chaudhari, A., 286 —+; Rossi, M. J.:_ Thermochemical Properties from Leiva, L. C. G3MP2B3 Calculations, Set-2: Free Radicals with —; Jorge, N. L.; Romero, J. M.; Cafferata, L. F. R.; Special Consideration of CH2=CH—C’=CHp, and Vara, M. E. G.: Kinetics and Mechanism of cyclo-’CsHs, °‘CH2OOH, HO—'CO, and HC(O)O’, the Thermal Decomposition Reaction of Acetone 661 Cyclic Diperoxide in Methyl tert-Butyl Ether So- Jiménez, R. lution, 302 —; Bueno, E.; Cano, I.; Corbacho, E.; Fernandez, Leng, S. Y. M. E.; Gomez, L.; Graciani, J.; Hernandez, —,; Ariffin, A.; and Khan, M. N.: Effects of Mixed M.; Matitos, T. M.; Ortiz, J.; L6épez-Cornejo, Aqueous-Organic Solvents on the Rate of In- P.; and Prado-Gotor, R.: Micellar Effects on a tramolecular Carboxylic Group-Catalyzed Cleav- Ligand Substitution Reaction: Kinetics of the age of N-(4’-Methoxyphenyl)- phthalamic Acid, Formation of [Fe(CN)s5(-pz)Ru(NH3)s5|~, from 316 [Fe(CN);H,O}*- and [Ru(NH3)spz|**, in the Lente, G. Presence of Anionic Micelles, 627 —+; Espenson, J. H.: Unusual Kinetic Role of a Jiménez, R. Water-Soluble Iron(II]) Porphyrin Catalyst in the —,; Villar, M.; Cueto, M.; Grueso, E.; Illanes, J.; Oxidation of 2,4,6-Trichlorophenol by Hydrogen Cobrian, J. I.; Canton, F; Villa, 1; Sanchez, Peroxide, 449 J. M.; Maza, S.; Mufioz, J. M.; Mujfioz, Li, J. C.; and Prado-Gotor, R.: Study of the Base- —+; Zhao, Z.; Kazakov, A.; and Dryer, F. L.: An Up- Catalyzed Nitrito—Nitro Isomerization Reaction dated Comprehensive Kinetic Model of Hydrogen ({((NH3)sCo-ONO}** —> [(NH3)sCo-NO>]?*) in Combustion, 566 Mixed Solvents, 410 Li, Z. See Crawford, M. A., 584 Jorge, N. L. See Leiva, L. C., 302 Lin, H. See Ge, Q., 197 Junru, X. See Yuangin, Z., 687 Lin, H. See Guo, Y.-H., 41 Lin, H.-K. See Guo, Y.-H., 41 Kabir-Ud-Din See Khan, Z., 359 Lin, M. C. See Park, J., 49 Kaluzny, P. See Colomb, A., 367 Lin, M. C. See Tokmakoy, I. V., 139 AUTHOR INDEX 697 Lin, M. C. See Xu, Z. F., 178, 205 Obi, K. See Imamura, T., 379 Loarca-Pina, G. See Gonzalez-Alatorre, G., 273 O Conaire, M. Lopez-Cornejo, P. See Jiménez, R., 627 —; Curran, H. J.; Simmie, J. M.; Pitz, W. J.; and West- brook, C. K.: A Comprehensive Modeling Study Malek, J. See Budrugeac, P., 309 of Hydrogen Oxidation, 603 Manucharova, L. A. Oehlschlaeger, M. A. —,; Tsarukyan, S. V.; and Vardanyan, I. A.: Reactions —; Davidson, D. F.; Herbon, J. T.; and Hanson, R. K.: of CH3Q) Radicals on Solid Surface, 591 Shock Tube Measurements of Branched Alkane Marziano, N. C. Ignition Times and OH Concentration Time His- —+; Ronchin, L.; Tortato, C.; Tonon, O.; and Bertani, tories, 67 R.: On the Beckmann Rearrangement of Ke- Oh, H. K. toximes: A Kinetic Study in Trifluoromethanesul- —; Lee, J. M.; Lee, H. W.; and Lee, I.: Kinetics and fonic Acid, 417 Mechanism oft he Pyridinolysis of Ary! Dithioben- Matitos, T. M. See Jiménez, R., 627 zoates in Acetonitrile, 434 Maza, S. See Jiménez, R., 410 Olariu, R. I. McEnally, C. S. —+; Bejan, |.; Barnes, I.; Klotz, B.; Becker, K. H.; and —; Pfefferle, L. D.: Experimental Study of Fuel De- Wirtz, K.: Rate Coefficients for the Gas-Phase Re- composition and Hydrocarbon Growth Processes action of NO; Radicals with Selected Dihydroxy- for Practical Fuel Components in Nonpremixed benzenes, 577 Flames: MTBE and Related Alkyl Ethers, Ortiz, J. See Jiménez, R., 627 345 Mehrotra, A. See Tandon, P. K., 545 Packard, A. See Frenklach, M., 57 Mhadeshwar, A. B. See Davis, S. G., 94 Pal, N. Moore, E. R. —+; Srivastava, A.; and Rai, J. S. P.: Kinetics and —; Bourne, A. E.; Hoppe, T. J.; Abode, P. J.; Boone, Mechanism of Esterification of Epoxy Resin in S. R.; and Purser, G. H.: Kinetics and Mechanism Presence of Triphenylphosphine, 280 of the Oxidation of Iron(I]) lon by Chlorine Diox- Panja, A. See Goswami, S., 129 ide in Aqueous Solution, 554 Panja, A. See Shaikh, N., 170 Morris, M. A. See Al-Madfa, H. A., 293 Panja, A. Moskaleva, L. V. See Tokmakovy, I. V., 139 —; Shaikh, N.; Banerjee, P.; and Saha, B.: Mechanis- Moya, M. L. See Mufioz, M., 634 tic Disparity in the Electron Transfer Reactions Munoz, C. See Jiménez, R., 410 of Thiosulfate with Di-w-oxo-bis(1,4,8,1 1-tetra- Munoz, J. M. See Jiménez, R., 410 azacyclotetradecane)dimanganese(III,IV) and Munoz, M. Di-w-oxo-bis(1,4,7,10-tetraazacyclododecane)- —+; del Mar Graciani, M.; Rodriguez, A.; and Moya, dimanganese(III,[1V) Complexes, 119 M. L.: Effects of Alcohols on Micellization and Parajo, M. See Amoedo, F. A., 642 on the Reaction Methyl 4-Nitrobenzenesulfonate Park, J. + Br in Cetyltrimethylammonium Bromide —,; Wang, L.; and Lin, M. C.: Kinetics of Phenyl Rad- Aqueous Micellar Solutions, 634 ical Reactions with Propane, n-Butane, n-Hexane, and n-Octane: Reactivity of CsHs Toward the Sec- Nagatani, I. See Imamura, T., 379 ondary C—H Bond of Alkanes, 49 Nair, B. U. See Kanthimathi, M., 79 Patroescu-Klotz, I. See Imamura, T., 379 Nakagawa, K. See Imamura, T., 379 Pérez-Maqueda, L. A. See Budrugeac, P., 309 Nallu, M. Pfefferle, L. D. See McEnally, C. S., 345 —; Subramanian, M.; Vembu, N.; and Hussain, A. Pitz, W. J. See O Conaire, M., 603 A.: Effect of Binary Aqueous-Organic Solvents on Prado-Gotor, R. See Jiménez, R., 410, 627 the Reaction of Phenacy! Bromide with Nitroben- Purser, G. H. See Moore, E. R., 554 zoic Acid(s) in the Presence of Triethylamine, 401 Qingxiang, X. See Yuangin, Z., 687 Neta, P. See Skrzypezak, A., 253 Nori-Shargh, D. Rai, J. S. P. See Pal, N., 280 —; Farahani, N. S.: Kinetic Study of Triph- Raju See Khan, Z., 359 enylphosphine Addition to para-Benzoquinone, Rodriguez, A. See Mujfioz, M., 634 472 Rodriguez, P. See Rubin, E., 650 698 AUTHOR INDEX Rolland, S. Taccone, R. A. See Teruel, M. A., 525 —; Simmie, J. M.: The Comparison of Detailed Tandon, P. K. Chemical Kinetic Mechanisms: Application to the —; Mehrotra, A.; Singh, A. K.; Baboo, R.; and Combustion of Methane, 467 - Dwivedi, P. B.: Cocatalysis by Ruthenium(III) Romero, J. M. See Leiva, L. C., 302 in Hydrogen Ions Catalyzed Oxidation of Iodide Ronchin, L. See Marziano, N. C., 417 lons: A Kinetic Study, 545 Rossi, M. J. See Janoschek, R., 661 Teixeiro, E. See Amoedo, F. A., 642 Rubin, E. Teruel, M. A. —+; Rodriguez, P.; Brandariz, I.; and de Vicente, —+; Taccone, R. A.; and Lane, S. 1: Absolute Rate M. E. S.: Kinetic and Equilibrium Study of the Constants for the Gas-Phase Reactions of O(P) Reaction of Nitroprusside and Hydroxide Ions: Atoms with CF,=CFCI and (£/Z)-CFCI=CFCI Influence of Ionic Strength Using Pitzer Model, at 298 K. Reactivity Trends of the Halogen- 650 Substituted Ethenes Series, 525 Tokmakoy, I. V. Saha, B. See Panja, A., 119 —; Moskaleva, L. V.; and Lin, M. C.: Quantum Chem- Saha, R. K. See Gupta, P., 1 ical/vVRRKM Study on the Thermal Decomposi- Sanchez, J. M. See Jiménez, R., 410 tion of Cyclopentadiene, 139 Schmitz, G. Tokuhashi, K. See Chen, L., 26, 337 —; Inorganic Reactions of Iodine(+1) in Acidic Solu- Tonon, O. See Marziano, N. C., 417 tions, 480 Tonse, S. R. Schultz, R. H. —; Brown, N.J.: Dimensionality Estimate of the Man- —+; On the Use of “Fast Kinetics” to Determine the ifold in Chemical Composition Space for a Turbu- Mechanism of Ligand Substitution at a Solvated lent Premixed H> + Air Flame, 326 Transition-Metal Intermediate, 427 Tortato, C. See Marziano, N. C., 417 Sebék-Nagy, K. Tripathi, R. —+; KOrtvélyesi, T.: Kinetics and Mechanism of —+; Upadhyay, S. K.: Kinetics of Oxidation of Reduc- the Hydrolytic Disproportionation of Iodine, ing Sugars by Catalytic Amount of Osmium( VIII) 596 in Presence of Periodate, 441 Segal, E. See Budrugeac, P., 87, 309 Tsang, W. Seiler, P. See Frenklach, M., 57 —+; Energy Transfer Effects During the Multichannel Sekiya, A. See Chen, L., 26, 337 Decomposition of Ethanol, 456 Seybold, P. G. See Hollingsworth, C. A., 230 Tsarukyan, S. V. See Manucharova, L. A., 591 Shaikh, N. See Goswami, S., 129 Turanyi, T. See Zador, J., 238 Shaikh, N. See Panja, A., 119 Shaikh, N. —,; Panja, A.; and Banerjee, P.: Kinetics and Mech- Upadhyay, S. K. See Tripathi, R., 441 anism of Oxidation of 2-Mercaptosuccinic Acid by Bis(j-oxo)-manganese(III,IV)-cyclam Com- Vara, M. E. G. See Leiva, L. C., 302 plex in Aqueous Medium: Influence of Externally Vardanyan, I. A. See Manucharova, L. A., 591 Added Copper(II), 170 Vembu, N. See Nallu, M., 401 Simmie, J. M. See Rolland, S., 467 Villa, I. See Jiménez, R., 410 Simmie, J. M. See O Conaire, M., 603 Villar, M. See Jiménez, R., 410 Singh, A. K. See Tandon, P. K., 545 Viachos, D. G. See Davis, S. G., 94 Skrdla, P. J. Vollarova, O. See Aranyosiova, M., 34 —,; Thermal Decomposition of tert-Butyl Peroxide in a Gas Chromatographic Reactor: A Comparison of Kinetic Approaches, 386 Wang, H. See Davis, S. G., 94 Skrzypczak, A. Wang, L. See Park, J., 49 —+; Neta, P.: Rate Constants for Reaction of 1,2- Wells, J. R. Dimethylimidazole with Benzyl Bromide in Ionic —; The Hydroxyl Radical Reaction Rate Con- Liquids and Organic Solvents, 253 stant and Products of 3,5-Dimethyl-1-hexyn-3-ol, Srivastava, A. See Pal, N., 280 534 Stevens, P. S. See Chuong, B., 12 Westbrook, C. K. See O Conaire, M., 603 Subramanian, M. See Nallu, M., 401 Wirtz, K. See Olariu, R. I., 577 AUTHOR INDEX 699 Xu, Z. F. on the Hydrolysis of Bis(nitrophenyl)phosphate —,; Lin, M. C.: A Computational Study of the Kinet- Catalyzed by N-methyl-diethanolamine-Ce(III) ics and Mechanism for the Reaction of HCO with Complex, 687 HNO, 205 Xu, Z. F. Zador, J. —,; Lin, M. C.: Computational Study on the Kinetics —; Zsély, 1. G.; and Turdnyi, T.: Investigation of and Mechanisms for the Reactions of HCO with the Correlation of Sensitivity Vectors of Hydrogen HONO and HNOH, 178 Combustion Models, 238 Zeitouni, F. S. See El-Subruiti, G. M., 494 Yan, C.-C. S. See Chaudhari, A., 286 Zhao, Z. See Li, J., 566 Younes, G. O. See El-Subruiti, G. M., 494 Zhu, S. See Ge, Q., 197 Yuangin, Z. Zhu, S.-R. See Guo, Y.-H., 41 —; Fan, L.; Qingxiang, X.; and Junru, X.: A Study Zsély, I. G. See Zador, J., 238 International Journal of Chemical Kinetics Subject Index to Volume 36 Absolute rate method, 26, 152, 525 Cleavage of N-(4’-methoxyphenyl)phthalamic acid, Acid hydrolysis of substituted phthalamic acids, 316 316 Acidic solutions, 480 Cocatalysis of iodide ion by H* and Ru(III), 545 Activation energy, 87 Combustion of H2/O> mixtures, 603 Addition reaction of hydroxide ions to nitroprusside, Combustion of hydrocarbons, 178 650 Combustion of hydrogen, 566 Addition reaction of triphenylphosphine to Combustion of nitramine propellants, 178 para-benzoquinone, 472 Combustion reaction modeling, 510 Alcohol effects on critical micelle concentration, 634 Comparison of ignition time data, 510 Alkaline media, 441 Complex reaction systems, 57 Anionic micelles, 627 Computational studies, 178, 205 Aquation of bromopentaamine cobalt(III) complex, Computer modeling, 107 494 Computer modeling of chemical kinetic mechanisms, Aqueous acetonitrile solutions, 34 467 i Aqueous acidic media, 79, 170, 273 Conductivity of amine—solvent solutions, 500 Aqueous media, 554, 623 Cross-interaction constant, 434 Aqueous organic media, 494 Aqueous solutions of sodium dodecylsulfate, 627 Data fitting, 259 Aromatic nucleophilic substitution reactions, 188 Data processing, 57 Arrhenius equation, 472 Dehydration of HCO3~, 197 Atmospheric chemistry, 12, 26, 57, 367, 467, 578, 584 Dimensionality of manifolds of chemical composition Atmospheric lifetime of hydrofluoroethers, 337 space, 326 Discharge fast flow—mass spectrometry-relative rate Base-catalyzed nitrito—nitro isomerization reaction, method, 584 410 Disinfectants in water treatment, 554 Beckmann rearrangement of ketoximes, 417 Durrum stopped-flow spectrophotometry, 623 Binary aqueous mixtures, 494 Dynamic scaling theory, 286 Binary aqueous organic solvents, 401 Boundary layer effects, 510 Electron transfer reactions, 119, 129 Bromination of 2-oxazolidinone, 642 Eley-Rideal reactions, 286 Energy transfer effects, 456 Canonical variational transition state theory, 139, 205 Environmental fate of ethanol, 584 Carbohydrate chemistry, 441 Esterification of epoxy resin, 280 Carrier gas and impurity effects, 510 Exponential-down collisional transition model, Catalytic dehydration of HCO;~, 197 456 Catalytic effect of strong acids, 417 Catalytic hydrolysis of bis(nitropheny!)phosphate, Fast kinetic methods, 427 687 Finite volume method, 1, 49 Catalytic hydrolysis with polymetal ions, 41 Flame velocity sensitivity vector, 238 Cellular automata simulations, 230 Fourier-transform ion cyclotron resonance mass Chemkin III program, 467 spectrometry, 216 International Journal of Chemical Kinetics, Vol. 36, 700-702 (2004) © 2004 Wiley Periodicals, Inc. SUBJECT INDEX 701 Free radical characterization, 661 Machine learning clustering techniques, 107 Fuel decomposition processes of MTBE, 345 Measurement error correction, 259 Menschutkin reaction, 253 G3MP2B3 calculations, 661 Micellar effects on ligand substituticn, 627 Gas chromatographic reactor studies, 386 Micellization in aqueous micellar solutions, 634 Gas-phase chemistry of indoor environments, 534 Mixed aqueous-organic solvents, 316 Gas-phase combustion reaction models, 94 Model of hydrogen combustion, 566 Gas-phase ozonolysis of biogenic organic compounds, Modeling study of hydrogen oxidation, 603 152 Moving boundary zone models, | Gas-phase radical—radical recombination reactions, Multichannel decomposition of ethanol, 456 216 Gas-phase reaction of CF;O0C(O)H, 337 Natural gas chemical kinetics model, 57 Gas-phase reaction of NO3 radicals, 578 Nitrosation of 1,3-dialkylureas, 273 Gas-phase reactions of hydrofluorocarbons, 26 Nonisothermal crystallization of (GeS>)p.3(Sb2S83)o.7, Gas-phase reactions of nitroxide free radicals, 216 309 Gas-phase reactions of OH radicals, 367, 379 Nonisothermal reactions in solids, 87 Gas-phase reactions of O(?P) atoms with halogenated Nonlinear integral isoconversion method, 87 alkenes, 525 Gas-solid noncatalytic reactions, 1, 49 Oxidation of gasoline additives, 367 Grassberger-Procaccia cumulative distribution Oxidation of hydrocarbon fuels, 67 method, 326 Oxidation of hydrogen, 603 Oxidation of iodide ion, 545 Halogenated hydrocarbon solvent reactions with Oxidation of iron(II) ion by chlorine dioxide, 554 tertiary amines, 500 Oxidation of lactic acid, 359 H-atom abstraction, 216 Oxidation of 2-mercaptoethanol, 129 H-atom abstraction by HCO, 178 Oxidation of 2-mercaptosuccinic acid, 170 H-atom abstraction by OH radicals, 26 Oxidation of 2,4,6-trichlorophenol, 449 Hausdorff geometrical binning method, 326 Oxidation of methacrolein, 12 Heterogeneous catalysis, 286 Oxidation of methane, 467 Heterogeneous reactions on solid surfaces, 591 Oxidation of methy! vinyl ketone, 12 High-temperature reactions, 467 Oxidation of nitrite in aqueous and micellar systems, Hochgreb-Dryer aldehyde combustion mechanism, 79 107 Oxidation of reducing sugars, 441 Hydrocarbon growth processes of MTBE, 345 Oxidation of ternary complexes, 394 Hydrolysis of 4-nitrophenyl acetate, 41 Oxidation of thiolato and sulfenato Co(III) complexes, Hydrolysis of iodine, 480 34 Hydrolytic disproportionation of iodine, 596 Oxygen atom transfer reaction, 79 Hydroxyl radical concentration time histories, 67 Hydroxyl radical reaction rate constant, 534 Peak area, column reactor method, 386 Hyperconjugation, 434 Phase differentiation in complex reactions, 107 Ignition times of branched alkanes, 67 Pitzer model, 650 Indoor environmental chemistry, 534 Platinum, 94 Initial rate method, 472 Predictive models of complex reaction systems, 57 Injection port reactor approach, 386 Principal component analysis, 326 Inorganic reactions of iodine, 480 Product curve method, 386 Invariant kinetic parameters method, 309 Products of the OH+ DHO reaction, 534 Ionic strength, 650 Pseudo-first-order method, 472 Isomerization reaction in water—cosolvent mixtures, Pyridinolysis of ary! dithiobenzoates, 434 410 Quantum chemical RRKM study, 139, 205 Least-squares method, 259 Ligand substitution at solvated intermediate, 427 Random deposition model, 286 Lindemann mechanism, 230 Rate coefficients, 379, 578 Low-pressure-limit rate constants, 566 Rate constant calculation, 157, 205, 259 702 SUBJECT INDEX Rate constants, 12, 26, 34, 41, 152, 178, 197, 253, 337, Shock tube diameter effects, 510 456, 480, 534, 566 Shock tube ignition data interpretation, 510 Reaction model optimization, 94 Shock tube measurements, 67 Reaction of chlorine atom with CH;CH,2OD, 584 Shock wave studies, 157 Reaction of HCO with HNO, 205 Software tools for Chemkin III, 467 Reaction of hexabromoiridate(II]) with bromine, 623 Solid surface reactions, 591 Reaction rates, 316, 401, 472 Solute—solvent interactions of reactants, 34 Reaction times, 107 Solution mapping and optimization approach, 94 Reactions of nitroxides with substituted phenyl Solvated transition-metal intermediate, 427 radicals, 216 Solvation of nitrobenzoates, 401 Reactivity of CH3Q) radicals on solid surfaces, 591 Solvent effects on aquation of cobalt(III) complex, Reactivity of cosolvent mixtures, 410 494 Reactivity of dihydroxybenzenes with NO; radicals, Solvent effects on rate constants, 34 578 Spectrophotometry of amine-solvent reactions, 500 Reactivity of halogen-substituted ethenes, 525 Stability of IrBro~ in aqueous solution, 623 Reactivity of hydrofiuorocarbons, 26 Step-ladder collisional transition model, 456 Reactivity of ionic liquids and molecular organic sol- Substitution of HxO by Ru(NH3)s5 pyrazine, 627 vents, 253 Surfactant micelles, 687 Reactivity of nonmethane hydrocarbons, 12 Reactivity of OH radicals with biogenic alcohols, 379 Temperature-dependent rate constants, 259 Reactivity of pheny] radicals to s-C—H bonds of Thermal decomposition of acetone cyclic wiperoxide, alkanes, 49 302 Redox reaction in aqueous acidic media, 79 Thermal decomposition of cyclopentadiene, 139 Reduction kinetics of ceria surface, 293 Thermal decomposition of formaldehyde, 157 Reduction of manganese compounds, 119, 129 Thermal decomposition of tert-butyl peroxide, 386 Relative rate method, 26, 188, 367, 379, 534 Thermochemical properties from G3MP2B3 Response surface development, 57, 94 calculations, 661 Robust control theory, 57 Turbulent intensity for H2 + air flame, 326 RRKM-master equation analysis, 139 Validation of formaldehyde decomposition Scaling over rough surfaces, 286 mechanism, 157 Sensitivity analysis based method, 94 Sensitivity vectors of hydrogen combustion models, Water, 94 238 Water treatment, 554, 596 Shock tube constant-volume behavior, 510 Water-soluble iron(II1) porphyrin catalyst, 449 International Journal of Chemical Kinetics Index of Compounds to Volume 36 Acetone, 401 C.Hs, 49 Acetone cyclic diperoxide, 302 CF3CF,CF,CF,CF2CHF>, 26 Acetonitrile, 34, 188, 316, 401, 434, 494 CF ,=CFCI, 525 Acrylic acid, 280 CF;0C(O)H, 337 AgNO, 480 CH2=CH—C-=CH)p, 661 Aldehydes, 107 -CH,0O0OH, 661 Ammonium perchlorate, 87 CH3CH,OD, 584 tert-Amyl-tert-buty! nitroxide, 216 CH;CHO, 591 tert-Amyl methyl ether, 345 CH3Q) radicals, 591 Aniline, 188 CH4, 591 Aryl dithiobenzoates, 434 Chlorine dioxide, 554 DL-Aspartic acid, 394 Chloroform, 500 Atropine, 500 Cl, 584 [Co(en)2(SCH2CH2NH2)}**, 34 Benzene, 188 [Co(en)2SCH»CH(COO)NH>]*, 34 para-Benzoquinone, 472 [Co(en)2(SOCH»CH2NH;>)]**, 34 Benzyl bromide, 253 [Co(NH3)s-ONO}**, 410 3-Benzyl-1,2-dimethylimidazolium bromide, 253 Copper(II), 129, 170 Bis(j:-0xo)-manganese(III, [V)-cyclam complex, 170 CpMn(CO)>, 427 Bis(nitropheny!)phosphate, 687 Cr’ (5-chlorosalen)]* complex, 79 Bisphenol-A based epoxy resin, 280 Cyclo--CsHs, 661 Br, 634 Cyclohexane, 427 Bromine, 623, 642 Cyclopentadiene, 139 N-Bromoacetamide, 642 Cyclopentene, 427 Bromocresol green, 500 Bromopentaamine cobalt(II]) complex, 494 n-Decane, 67 Bromophenol blue, 500 1 ,3-Dialkylurea, 273 N-Bromosuccinimide, 394, 642 1 ,3-Diallylurea, 273 n-Butane, 49, 67, 259 1 ,3-Dibuthylurea, 273 n-Butanol, 634 Di-tert-buty! nitroxide, 216 tert-Butyl alcohol, 410 2,6-Dichloro-1,4-benzoquinone, 449 Butyldimethylimidazolium, 253 1,2-Dichloroethane, 472, 500 N-Butyl methyl! ether, 345 Dichloromethane, 500 Butylmethylimidazolium, 253 1 3-Diethylurea, 273 Butylmethylpyrrolidinium, 253 1,2-Dihydroxybenzene, 578 tert-Butyl peroxide, 386 | ,2-Dihydroxy-3-methylbenzene, 578 1,2-Dihydroxy-4-methylbenzene, 578 Cerium dioxide, 293 Dimethylformamide, 401 Cetyl pyridium chloride, 79 3,5-Dimethyl-1-hexyn-3-ol, 534 Cetyltrimethylammonium bromide, 634 1,2-Dimethylimidazole, 253 C3H,¢, 591 1,1-Dimethylpropyl methyl ether, 345 International Journal of Chemical Kinetics, Vol. 36, 703—705 (2004) © 2004 Wiley Periodicals, Inc. 704 COMPOUND INDEX Dimethyl sulfoxide, 188, 494 K3Fe(CN),, 545 1,3-Dimethylurea, 273 Di--0xo-bis(1,4,7,10-tetraazacyclododecane)- Lactic acid, 359 dimanganese(III, IV), 119, 129 Lactose, 441 Di-p-o0xo-bis(1,4,8,1 1-tetraazacyclotetradecane)- dimanganese(III, IV), 119, 129 Maltose, 441 Dipicolinatochromium(III), 394 Manganese dioxide, 359 1,3-Dipropylurea, 273 2-Mercaptoethanol, 129 2-Mercaptosuccinic acid, 170 Ethanol, 456 Methacrolein, 12 Ethyl tert-butyl ether, 345 Methane, 467 Ethyltoluene, 367 Methanesulfonic acid, 417 (E/E)-CFCI=CFCI, 525 Methanol, 188, 410 N-(4'-Methoxypheny])phthalamic acid, 316 [Fe(CN);HO}*~, 627 N-Methylaniline, 188 [Fe(CN)s(u-pyrazine)Ru(NH3)5]~ ,6 27 2-Methyl-3-buten-2-ol, 379 Formaldehyde, 157 3-Methyl-2-buten-1-ol, 379 Formyl radicals, 157 3-Methyl-3-buten-1-ol, 379 Fructose, 441 Methylbutenol, 152 Methyl tert-butyl ether, 302 Galactose, 441 Methy!] tert-butyl ether, 345 (GeS2)o.3(Sb2S3)o.7, 309 N-Methyldiethanolamine-Ce(III) complex, 687 Glucose, 441 Methyl 4-nitrobenzenesulfonate, 634 Methyl vinyl ketone, 12 H*, 480, 545, 650 H2, 326, 566, 603 [(NH3)sCo-NO>}**, 410 N-Halogenalkylammonium chloride, 500 Nitrite, 79 H20, 34, 238, 410, 627 Nitrobenzoic acid, 401 H20-CH;CN, 316 4-Nitropheny] acetate, 41 H,O-1,4-dioxan, 316 4-Nitrophenyl-2,4,6-trinitropheny! ether, 188 H,OI*, 480 Nitroprusside, 650 HCO, 178, 205 N-Nitrosodiallylurea, 273 {HCO3}~, 197 N-Nitrosodibuthylurea, 273 HC(O)O., 661 N-Nitrosodimethylurea, 273 n-Heptane, 67, 510 N-Nitrosodipropylurea, 273 Hexabromoiridate(III), 623 NO», 591 n-Hexane, 49 NO; radicals, 578 n-Hexanol, 634 Nonane, 367 Hexyltributylammonium, 253 HNO, 205 O2, 566, 603 HNOH, 178 OP), 525 HO—-CO, 661 n-Octane, 49 HOI, 480 Octyldimethylimidazolium, 253 HONO, 178 Octylmethylimidazolium, 253 Hydrogen, 238, 293 OH, 12, 94, 259 Hydrogen peroxide, 449 OH radicals, 26, 337, 367, 379, 441, 534 Osmium(VIII), 441 I,, 596 2-Oxazolidinone, 642 lodine, 480 Oxochromium(V) ion, 79 Iron(II), 554 Oxygen, 94 Iron(III) meso-tetra(4-sulfonatopheny!) porphine Ozone, 12, 26, 152 chloride, 449 Isooctane, 510 n-Pentanol, 634 Isoprene, 12, 152 Perchloric acid, 273, 417, 480

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