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INTERNATIONAL JOURNAL OF CHEMICAL KINETICS VOLUME 28, 1996 Editor DAVID M. GOLDEN Associate Editors GREGORY P. SMITH RIPUDAMAN MALHOTRA Editorial Board 1996 1997 1998 Neville L. Arthur Roger Atkinson Philippe Dagaut LaTrobe University (Australia) University of California C.N.R.S., Orleans (France) Riverside (USA) Netkal M. M. Gowda Barbara Finlayson-Pitts Western Illinois University (USA) Joseph W. Bozzelli University of California Vew Jersey Institute Irvine (USA) Robert E. Huie of Technology (USA) National Institute of M. Niyaz Khan Standards and Technology (USA) Richard J. Field Universiti Malaya (Malaysia) Univerosf Mionttyan a (USA) _ Michel J. Rossi H. Matsui Ecole de Polytechnique Alan S. Rodgers University of Tokyo (Japan) Federale de Lausanne (Switzerland) Texas A & M University (USA) Timothy Wallington Paul Roth J. V. Michael Ford Motor Company (USA) Universitat Duisburg (Germany) irgonne National Laboratory Illinois (USA) Paul H. Wine Karen E. Wetterhahn Georgia Institute of Technology Dartmouth College C. F. Wells (USA) Vew Hampshire (USA) Univeorf Bsirimitngyham (U.K.) Sidney W. Benson, Editor Emeritus, University of Southern California (USA) The International Journal of Chemical Kinetics ISSN Subscription price (Volume 28. 1996): $1.368.00 in US, Reprints: Reprint sales and inquiries should be directed to the 0538-8000) is published monthly, one volume per year. by John $1.488.00 in Canada and Mexico, $1,554.00 outside North customer service department, John Wiley & Sons, Inc.. 605 Third Wiley & Sons, Inec.. 605 Third Avenue, New York, NY 10158 America. All subscriptions outside US will be sent by air. Ave.. New York, NY 10158. Tel: (212) 850-8776 Copyright ©1996 John Wiley & Sons, Inc. All rights reserved. No Payment must be made in US dollars drawn on a US bank part of this publication may be reproduced in any form or by any Claims for undelivered copies will be accepted only after the The contents of this journal are indexed in the following: Biologi- Cmt1eeo9nap 7ny6sr p,ie gUrhnmtiei txsecsedCip loten Sa traaatsone fcs ep teChroeCm peiyntptrtueiebrgdl,h i ts h2ue2nrA2d.c e tr. R oorw sSieetcahwtuooituoohtndo s r ieziDtar1hti0evi7reo ,n otrhD eta hn1prv0roe8iruo sgr .ho f w riMttthhA-ee afsbmlcoealrleioilnlwpo i twnisigoufn nosg ut lraa biieinslnwse.que duee i krMsiiihne sasss,tf i ronarbng se piepltncre ooapcsaireenee sdscs eiicwnvawhgelidl el. lr ea b(2ePcr1 lhe2ea)ssa neusrgpevep e l 8ie5neos0cfdt l- ooc6askwd6e dh4 rep5enesa r sm.ci lotoorsp s.yFs eoser -Po flmh seaaauitvsblhee- e criSaenCnglt I ISAnCbEdosAetnxRrt,aeC cnHttsR s,e/ sDPeaBhatIyrOascSbihIca Sas,le ,A l er(tICC ShhIee (mmIiSiIc)ca,a l lS cAiabesnntdcre a cEtasC,ri ttaht iCoShnce imeiIncncadelse ,x TitEl(neIgsSI,i) n, eeaCrnur d 0p1os9t2a3g:e p(a5i0d8 )a t N7e5w0 -8Y4o0r0k:, NYf,a x and( 50a8t ) add7it5i0o-n4a4l7 0.m ailiPnegr ioodfifcicaelss [email protected] Other correspondence: Address all other correspondence to: In- The code and copyright notice appearing at the bottom of the Postmaster: Send address changes to International Journal of ternational Journal of Chemical Kinetics, Publisher, Interscience first page of an article in this journal indicate the copyright Chemical Kinetics, Susan Malawski. Director, Subscription Ful- Division, Professional, Reference, and Trade Group, John Wiley owner's consent that copies of the article may be made for per- fillment and Distribution. Subscription Department. John Wiley & Sons. Inc. 605 Third Avenue, New York, NY 10158 sonal or internal use, or for the personal use of specific clients, on & Sons. Inc.. 605 Third Avenue, New York, NY 10158 the condition that the copier pay for copying beyond that permit- Manuscripts should be submitted to the Editor, Dr. David M ted by Sections 107 or 108 of the U.S. Copyright Law. This con- Advertising Sales: Inquiries concerning advertising should be for- Golden, Department of Chemical Kinetics, SRI International, 333 sent does not extend to other kinds of copying. such as copying warded to Susan Levey, Advertising Sales. John Wiley & Sons, Ravenswood Avenue, Menlo Park. California 94025. Information for general distribution. for advertising or promotional purposes. 605 Third Avenue, New York, NY 10158. Tel: (212) 850-8832 for contributors appears in the first and last issue of each volume for creating new collective works, or for resale. Such permission Advertising Sales, European Contact: Michael Levermore, Adver- requests and other permission inquiries should be addressed to tising Sales Manager, John Wiley & Sons, Ltd., Baffins Lane. the Permissions Dept Chichester, Sussex PO19 1UD, England. Editorial Production, John Wiley: Alyson Linefsky © This paper meets the requirements of ANSI/NISO Z39.48-1992 (Permanence of Paper). International Journal of Chemical Kinetics Author Index to Volume 28 Alam, M. M. tion of L-a-Amino-n-Butyric Acid by Perman- —; Watanabe, A.; Ito, O.: Laser-Flash Photolysis ganate in Acid Medium, 799 Study of Dithiobis (tetrazole): Reactivities of Ascanio, J. See Martin, G., 353 Tetrazole-thio Radical, 405 Aschmann, S. M. See Kwok, E. S. C., 925 Al-Awadi, N. A. Atkinson, R. See Carter W. P. L., 497 —;Elnagdi, M. H.; Mathew, T.; El-Gamry, L; —y; Gas-Phase Pyrolysis Mechanism and Kinetics of Khalik, M. A.: Pyrolysis of Aminonitriles, 3-t-Butoxyquadricyclane, 481 Cyanohydrazones, and Cyanoacetamides. Part I. —; See Alvarado, A., 905 Elimination Reaction of 1-Arylmethyleneamino- —; See Kwok, E. S. C., 925 1 ,2-Dihydro-4,6-Dimethyl-2-Oxopyridine-3-Car- Bajpai, P. bonitriles and Substituted Benzaldehyde Cyano- —; Shukla, A.; Upadhyay, S. K.: Pd(ID) Inhibition acetylhydrazones, 741 during Hexacyanoferrate(III) Oxidation of Sug- ; Elnagdi, M. H.; Mathew, T.; Khalik, M. A.: Pyrol- ars: A Kinetic Study, 413 ysis of Aminonitriles, Cyanohydrazones, and Ball, J. C. See Wallington, T. J., 627 Cyanoacetamides. Part II. Elimination Reactions Banerji, K. K. See Jalani, N., 165 of Arylacetylhydrazone, Arylcyanoacetylhydra- —; See Suri, D., 681 zone, and Substituted Cyanoacetamides, 749 Barbé, P. Alfano, A. J. —; Martin, R.; Perrin, D.; Scacchi, G.: Kinetics and —: Gas-Phase Pyrolysis Mechanism and Kinetics of Modeling of the Thermal Reaction of Propene at 3-t-Butoxyquadricyciane, 481 800 K. Part I. Pure Propene, 829 Ali, S. 1. —; Martin, R.; Perrin, D.; Scacchi, G.: Kinetics and —,; Murtaza, Z.; Khan, Z.: Kinetic and Mechanistic Modeling of the Thermal Reaction of Propene at Studies on the Complexation and Anation of 800 K. Part II. Propene in the Presence of Hydro- Dioxotetracyanomolybdate([V) with 2,2'-Bipyr- gen, 849 idyl in Aqueous Solution, 705 Barnes, I. See Bierbach, A., 565 Alvarado, A. Bart, H. J. —; Atkinson, R.; Arey, J.: Kinetics of the Gas-Phase —,; Kaltenbrunner, W.; Landschiitzer, H.: Kinetics of Reactions of NO, Radicals and O, with 3- Esterification of Acetic Acid with Propyl Alcohol Methylfuran and the OH Radical Yield from the by Heterogeneous Catalysis, 649 O, Reaction, 905 Baxley, J. S. See Wells, J. R., 475 Ananda, S. Baussand, P. See Ferrari, C., 609 —; Demappa, T.; Mahadevappa, D. S.; Made Gowda, Bedjanian, Y. N. M.: Oxidation of Some Primary Amines by —,; Poulet, G.; Le Bras, G.: Kinetic Study of the Bromamine-B in Alkaline Medium: A Kinetic Reaction of BrO Radicals with Dimethylsulfide, and Mechanistic Study, 873 383 Andrés-Ordax, F. J. See Arrizabalaga, A., 799 Becker, K. H. Antelo, J. M. —y; Geiger, H.; Wiesen, P.: Kinetics of the Reaction —; Arce, F; Campos, J.; Paraj6, M.: Kinetic Study of CH +N,—~> Products in the Range 10-620 the Reaction between Iodide and N-Chloramines, torr and 298-1059 K, 115 391 —:; See Bierbach, A., 565 Arce, F. See Antelo, J. M., 391 Benson, S. W. Arey, J. See Alvarado, A., 905 —,; Oxygen Initiated Combustion: Thermochemistry —; See Kwok, E. S. C., 925 and Kinetics of Unsaturated Hydrocarbons, 665 Arrizabalaga, A. Bierbach, A. —; Andrés-Ordax, F. J.; Fernandez-Aranguiz, M. Y.; —; Barnes, I.; Becker, K. H.: Rate Coefficients for Peche, R.: Kinetics and Mechanism of the Oxida- the Gas-Phase Reactions of Bromine Radicals International Journal of Chemical Kinetics, Vol. 28, 941-946 (1996) © 1996 John Wiley & Sons, Inc. CCC 0538-8066/96/12019-406 942 AUTHOR INDEX with a Series of Alkenes, Dienes, and Aromatic Hy- Costello, A. R. drocarbons at 298 + 2 K, 565 —; Lindsay Smith, J. R.; Waddington, D. J.: A Ki- Bigger, S. W. See Verity, B., 919 netic Study of the Reactions of 2-Propyl Radicals Bilde, M. See Wallington, T. J., 627 in the Liquid Phase in the Presence and Absence Boone, G. D. See Brahan, K. M., 397 of Oxygen, 201 —; See Hewitt, A. D., 763 Cyfert, M. Bowman, C. T. See Wooldridge, S. T., 245 —;Latko, B.; Wawrzenczyk, M.: Oxidation of —; See Wooldridge, M. S., 361 Tris(1, 10-Phenanthroline)Iron(II) Ion by Iodate Bozzelli, J. W. See Glarborg, P., 773 and Periodate Ions in Neutral Medium, 103 Brahan, K. M. Czarnowski, J. —; Hewitt, A. D.; Boone, G. D.; Hewitt, S. A.: Rate —: Kinetics and Mechanism of the Thermal Gas- Constant for the Reaction of Cl with CHCl, ,3 97 Phase Reaction between Trifluoromethylhypofiu- —; See Hewitt, A. D., 763 orite, CF,OF, and Tetrachloroethene, 489 Brown, M. C. Daéle, V. —; LePree, J. M.; Connors, K. A.: Pressure and pH —:; Laverdet, G.; Poulet, G.: Kinetics of the Reac- Dependence of the Kinetics of Decarboxylative tions of CH,O with Cl and ClO, 589 Dechlorination of N-Chloro-l-Alanine, 791 Dam-Johansen, K. See Glarborg, P., 773 Brunner, C. See Casado, J., 307 Davidson, D. F. See RGhrig, M., 599 Buhse, T. See Lavabre, D., 333 Das, A. K. Cafferata, L. F. R. —; Dynamics of Ternary Complex Formation in the —; Nojima, M.; Yamakoshi, H.: Kinetics and Mecha- Reaction of Diaquoanthranilato-N, N-diacetato- nism of the Thermal Decomposition Reaction nickelate(II) with 2,2'-Bipyridine and 1,10- of Dihydro-3,6-Diphenyl-5-Benzyl-1,2,4,5-Tri- Phenanthroline, 275 oxazine, 21 Demappa, T. See Ananda, S., 873 Calzadilla, M. Diaz, P. M. See Calzadilla, M., 687 —; Malpica, A.; Diaz, P. M.: Kinetics and Mecha- Dill, M. See Orlando, J. J., 433 nism for Oxime Formation from 2-Quinolinecar- —; See Wallington, T. J., 627 boxaldehyde, 687 Dorko, E. A. See Johnson, D. E., 43 Campos, J. See Antelo, J. M., 391 Easwaramoorthy, D. See Ramachandran, M. S., 545 Carr, R. W. See Wu, F., 9 Eberhard, J. —.; See Swihart, M. T., 817 —; Howard, C. J.: Temperature-Dependent Kine- Carter, W. P. L. See Luo, D., | tics Studies of the Reactions of C,H,O, and —; Atkinson, R.: Development and Evaluation of a n-C,H,O, Radicals with NO, 731 Detailed Mechanism for the Atmospheric Reac- El-Bardan, A. A. See Hamed, E. A., 283 tions of Isoprene and NO, , 497 Elend, M. See Koch, R., 807 Casado, J. El-Gamry, I. See Al-Awadi, N. A., 741 —; Gonzalez-Alatorre, G.; Izquierdo, C.; Brunner, El-Mallah, N. M. See Hamed, E. A., 283 C.: The Nitrosation of N-Alkylureas: Evidence Elnagdi, M. H. See Al-Awadi, N. A., 741 for a Proton Transfer Mechanism, 307 —; See Al-Awadi, N. A., 749 Chang, C.-H. See Wang, T.-T., 615 Fernandez-Aranguiz, M. Y. See Arrizabalaga, A., Chang, H. N. See Choi, J. 1., 37 799 Changlun, T. See Weijun, N., 899 Ferrari, C. Chen, Y.-F. —; Roche, A.; Jacob, V.; Foster, P.; Baussand, P.: —; Lin, H.-P.; Sun, S. S.; Jwo, J.-J.: Kinetic Study Kinetics of the Reaction of OH Radicals with a of the Ce(III)- or Ferroin-Catalyzed Belousov- Series of Esters under Simulated Conditions at Zhabotinsky Reaction with Ethyl- or Butyl-Mal- 295 K, 609 onic Acid, 345 Ferrero, J. C. See Sehested, J., 579 Chiang, H.-M. See Glarborg, P., 773 Foster, P. See Veillerot, M., 235 Choi, J. I. —,; See Ferrari, C., 609 —; Hong, W. H.; Chang, H. N.: Reaction Kinetics of Galloo, J. C. See Veillerot, M., 235 Lactic Acid with Methanol Catalyzed by Acid Garmanoy, A. B. Resins, 37 —; Photolysis of CF,NO as a Source of CF, Radi- Clifton, C. L. See Huie R. E., 195 cals, Rate Constant of the CF, + CF,NO Reac- Cohen, N. See Koffend, J. B., 79 tion at 296 K, 71 Connors, K. A. See Brown, M. C., 791 Geiger, H. See Becker, K. H., 115 AUTHOR INDEX 943 Glarborg, P. Huie R. E. —;Kubel, D.; Dam-Johansen, K.; Chiang, H.-M.; —; Clifton C. L.: Kinetics of the Reaction of the Sul- Bozzelli, J. W.: Impact of SO, and NO on CO fate Radical with the Oxalate Anion, 195 Oxidation under Post-Flame Conditions, 773 Hurley, M. D. See Langer, S., 299 Gonzalez-Alatorre, G. See Casado, J., 307 —; See Wallington, T. J., 627 Grosjean D. See Grosjean, E., 373 Huybrechts, G. —.; See Grosjean, E., 461 —,; Narmon, M., Van Mele, B.: The Pyrolysis of CCI, —,; See Grosjean, E., 911 and C,Cl, in the Gas Phase. Mechanistic Model- Grosjean E. ing by Thermodynamic and Kinetic Parameter —; Grosjean, D.; Seinfeld, J. H.: Gas-Phase Reaction Estimation, 27 of Ozone with Trans-2-Hexenal, Trans-2-Hex- ; Theys, J.; Van Mele, B.: Pyrolysis of Hexa- enyl Acetate, Ethylvinyl Ketone, and 6-Methyl-5- chloroethane in the Gas Phase: Computer Aided Hepten-2-One, 373 Kinetic Study, 755 —,; Grosjean, D.: Rate Constants for the Gas-Phase Ito, O. See Alam, M. M., 405 Reaction of Ozone with 1,2-Disubstituted Izquierdo, C. See Casado, J., 307 Alkenes, 461 Jacob, V. See Ferrari, C., 609 —y; Grosjean, D.: Rate Constants for the Gas-Phase Jalani, N. Reaction of Ozone with 1,1-Disubstituted —; Kothari, S.; Banerji, K. K.: Correlation Analysis Alkenes, 911 of Reactivity in the Addition of Substituted Ben- Guillermo, R. See Veillerot, M., 235 zylamines to Ethyl a-Cyanocinnamate, 165 Hallquist, M. Jayaweera, I. S. See Roscoe, J. M., 181 —; Langer, S.; Ljungstrém, E.; Wangberg, I.: Rates Jiménez, R. See Lopez, P., 57 of Reaction between the Nitrate Radical and Jing-Li, F. See Ke-Ping, H., 259 Some Unsaturated Alcohols, 467 Johnson, D. E. Hamed, E. A. —; Walters, E. A.; Dorko, E. A.: The Dark Reactions —; El-Bardan, A. A.; El-Mallah, N. M.: Kinetics of F, + CF,I, C,F,I, and n-C,F,I, 43 the Reaction of Sodium Arylthiolates with Nitro- Just, T. See Markus, M. W., 171 Carboxybenzy! Halide Derivatives, 283 Jwo, J.-J. See Chen, Y.-F., 345 Hangsheng, Y. See Weijun, N., 899 Kaiser, E. W. See Wallington, T. J., 627 Hanson, R. K. See Wooldridge, S. T., 245 Kaltenbrunner, W. See Bart, H. J., 649 —; See Rohrig, M., 599 Kamble, D. L. —2; See Wooldridge, M. S., 361 —:; Nandibewoor, S. T.: Kinetics of Vanadium(V) Hashmi, A. A. See Khan, Z., 893 Catalyzed Oxidation of Gallic Acid by Potassium Haq, M. M. See Khan, Z., 893 Bromate in Acid Medium, 673 Heiss, A. Kawano, H. See Hidaka, Y., 137 —; Sahetchian, K.: Isomerization Reactions of the Kecheng, H. See Weijun, N., 899 n-C,H,O and n-OOC,H,OH Radicals in Oxygen, Ke-Ping, H. 531 —;Jing-Li, F: Acceleration Effect of Electroless Hewitt, A. D. See Brahan, K. M., 397 Nickel Deposition by Thiourea, 259 —:; Brahan, K. M.; Boone, G. D.; Hewitt, S. A.: Ki- Khalik, M. A. See Al-Awadi, N. A., 741 netics and Mechanism of the Cl + CO Reaction —; See Al-Awadi, N. A., 749 in Air, 763 Khan, M. N. Hewitt, S. A. See Brahan, K. M., 397 —; Kinetic Studies on General Base-Catalyzed Cleav- —,; See Hewitt, A. D., 763 age of Phthalimide (PTH) in 2-Hydroxyethy- Hidaka, Y. lamine and 2-Methoxyethylamine Buffers, 421 —; Higashihara, T.; Ninomiya, N.; Masaoka, H.; Khan, Z. See Ali, S. 1., 705 Nakamura, T.; Kawano, H.: Shock Tube and —; Hashmi, A. A.; Khan, T. A.; Haq, M. M.: Tem- Modeling Study of 1,3-Butadiene Pyrolysis, 137 plate Mechanism and Kinetics for the Complexa- Higashihara, T. See Hidaka, Y., 137 tion of Ninhydrin with Copper(II) Complexes of Holmes, B. E. See McDowell, D. R., 61 Asparagine and Serine, 893 —; See McDowell, D. R., 109 Khan, T. A. See Khan, Z., 893 Hong, W. H. See Choi, J. I., 37 Knoche, W. See Pohlimeier, A., 125 Horie, O. See Neeb, P., 721 Koch, R. Howard, C. J. See Eberhard, J., 731 —; Kriiger, H-U.; Elend, M.; Palm, W-U.; Zetzsch, Huang, T.-C. See Wang, T.-T., 615 C.: Rate Constants for the Gas-Phase Reaction of 944 AUTHOR INDEX OH with Amines: tert-Butyl Amine, 2,2,2-Triflu- MacKenzie, A. L. See Roscoe, J. M., 181 oroethyl Amine, and 1,4-Diazabicyclo[2.2.2]Oc- Made Gowda, N. M. See Rangappa, K. S., 265 tane, 807 —; See Ananda, S., 873 Koffend, J. B. Mahadevan, V. See Tony, K. J., 657 —;Cohen, N.: Shock Tube Study of OH Reactions Mahadevappa, D. S. See Rangappa, K. S., 265 with Linear Hydrocarbons near 1100 K, 79 —; See Ananda, S., 873 Kothari, S. See Jalani, N., 165 Malim Maniraj, R. P. See Ramachandran, M. S., —; See Suri, D., 681 545 Kruger, H-U. See Koch, R., 807 Malkina, I. L. See Luo, D., 1 Kubel, D. See Glarborg, P., 773 Malpica, A. See Calzadilla, M., 687 Kumar, U. U. See Rajanna, K. C., 153 Mardoyan, V. A. See Tavadyan, L. A., 555 Kwok, E. S. C. Markus, M. W. —; Aschmann, S. M.; Arey, J.; Atkinson, R.: Product —; Roth, P.; Just, T.: A Shock Tube Study of the Re- Formation from the Reaction of the NO, Radical actions of CH with CO, and O,, 171 with Isoprene and Rate Constants for the Reac- Martin, G. tions of Methacrolein and Methyl Vinyl Ketone —;Ascanio, J.; Rodriguez, J.: Gas-Phase Ther- with the NO, Radical, 925 molysis of t-Butylsulfenamides: N,N-Dimethyl Lakshmi, S. t-Butylsulfenamide, 2,6-Dimethylpiperidiny] —; Renganathan, R.: Kinetics of Oxidation of Cer- t-Butylsulfenamide, and N-t-Butyl t-Butylsulfe- tain Pyrimidines by Ce(IV), 713 namide, 353 Landschiitzer, H. See Bart, H. J., 649 Martin, R. See Barbé, P., 829 Lane, S. I. See Sehested, J., 579 —; See Barbé, P., 849 Langer, S. See Hallquist, M., 467 Masaoka, H. See Hidaka, Y., 137 —; Ljungstrém, E.; Wangberg, I; Wallington, T. J.; Matha, M. Hurley, M. D.; Nielsen, O. J.: Atmospheric —; Sundari, L. B. T.; Rajanna, K. C.; Saiprakash, Chemistry of Di-tert-Butyl Ether: Rates and P. K.: Kinetics and Mechanism of Hydrogen Per- Products of the Reactions with Chlorine Atoms, oxide Oxidation of Chromone-3-Carboxalde- Hydroxyl Radicals, and Nitrate Radicals, 299 hydes in Aqueous Acid and Micellar Media, 637 Latko, B. See Cyfert, M., 103 Mathew, T. See Al-Awadi, N. A., 741 Lavabre, D. —; See Al-Awadi, N. A., 749 —; Micheau, J. C.; Buhse, T.; Thiemann, W.: Kinetic McDowell, D. R. Modelling and Inverse Treatment of the Radical —:; Weston, J., Holmes, B. E.: Substituent Effects on Mechanism of the Liquid-Phase Autoxidation of the Disproportionation-Combination Rate Con- 1,2,3,4-Tetrahydronaphthalene, 333 stant Ratios for Gas-Phase Halocarbon Radicals. Laverdet, G. See Daéle, V., 589 II. Reactions of -CF, + CF,CH,CH,: and Le Bras, G. See Teton, S., 291 CF,CH,CH,: + CF,CH,CH,-, 61 —; See Bedjanian, Y., 383 —;Holmes, B. E.: Substituent Effects on the LePree, J. M. See Brown, M. C., 791 Disproportionation-Combination Rate Constant Lin, H.-P. See Chen, Y.-F., 345 Ratios for Gas-Phase Halocarbon Radicals. Part Lin, M. C. See Mebel, A. M., 693 III: Reactions of CF, + CF,CH,CHCF, and —; See Park, J., 879 CF,CH,CHCF, + CF,CH,CHCF,, 109 Lindsay Smith, J. R. See Costello, A. R., 201 Mebel, A. M. Liu, B.-L. See Wang, M. L., 885 —; Lin, M. C.; Morokuma, K.; Melius, C. F.: Theo- Ljungstrém, E. See Hallquist, M., 467 retical Study of Reactions of N,O with NO and —; See Langer, S., 299 OH Radicals, 693 Lépez, P. Melius, C. F. See Mebel, A. M., 693 —; Sanchez, F.; Jiménez, R.; Pérez-Tejeda, P.; Moya, Mellouki, A. See Teton, S., 291 M. L.: The Use of Free Energy Relationships to Micheau, J. C. See Lavabre, D., 333 Rationalize Kinetic Data in Complex Solvent Miller, J. A. See Perry, R. A., 217 Mixtures, 57 Moazzam Ali, M. See Rajanna, K. C., 865 Luo, D. Moortgat, G. K. See Neeb, P., 721 —,; Pierce, J. A.; Malkina, I. L.; Carter, W. P. L.: Rate Morokuma, K. See Mebel, A. M., 693 Constants for the Reactions of OCP) with Se- Moya, M. L. See Lopez, P., 57 lected Monoterpenes, | Murtaza, Z. See Ali, S. 1., 705 AUTHOR INDEX 945 Musaelyan, M. V. See Tavadyan, L. A., 555 P. K.: Vilsmeier-Haack Formylation of Coumarin Nakamura, T. See Hidaka, Y., 137 Derivatives. A Solvent Dependent Kinetic Study, Nandibewoor, S. T. See Kamble, D. L., 673 865 Narmon, M. See Huybrechts, G., 27 Rajaram, J. See Tony, K. J., 657 Neeb, P. Ramachandra, D. See Rangappa, K. S., 265 —; Horie, O.; Moortgat, G. K.: Gas-Phase Ozonoly- Ramachandran, M. S. sis of Ethene in the Presence of Hydroxylic Com- —,; Easwaramoorthy, D.; Malim Maniraj R. P.: Stud- pounds, 721 ies on the Oxidation of a-Amino Acids by Nielsen, O. J. See Langer, S., 299 N-Bromo Oxidants: Kinetics of the Reaction of —; See Sehested, J., 579 Bromide Ion with N-Bromoacetamide, 545 Ninomiya, N. See Hidaka, Y., 137 Rangappa, K. S. Nojima, M. See Cafferata, L. F. R., 21 —; Ramachandra, H.; Mahadevappa, D. S.; Made Orlando, J. J. Gowda, N. M.: Osmium( VIII) Catalyzed Kinetics —; Tyndall, G. S.; Wallington, T. J.; Dill, M.: Atmos- and Mechanism of Indoles Oxidation with Aryl- pheric Chemistry of CH,Br,: Rate Coefficients N-Haloamines in Alkaline Medium, 265 for Its Reaction with Cl Atoms and OH and the Reddy, K. N. See Rajanna, K. C., 153 Chemistry of the CHBr,O Radical, 433 Renganathan, R. See Lakshmi, S., 713 Pacey, P. D. See Roscoe, J. M., 181 Rinaldi, C. A. See Sehested, J., 579 Palm, W-U. See Koch, R., 807 Roche, A. See Ferrari, C., 609 Panda, M. Rodgers, A. S. —; Pati, S. C.: Ruthenium(VIID Mediated Oxidation —: Book Review, 553 of Some Aliphatic and Alicyclic Ketones by Peri- Rodriguez, J. See Martin, G., 353 odate-Ruthenium(III) System in Aqueous HCIO, Rohrig, M. Medium, 453 —; Petersen, E. L.; Davidson, D. F.; Hanson, R. K.: Parajé, M. See Antelo, J. M., 391 The Pressure Dependence of the Thermal De- Park, J. composition of N,O, 599 —-; Lin, M. C.: Mass-Spectrometric Determination of Roscoe, J. M. Product Branching Probabilities for the NH, + —; Jayaweera, I. S.; MacKenzie, A. L.; Pacey, P. D.: NO, Reaction at Temperatures between 300 and The Mechanism of Ethylene Pyrolysis at Small 990 K, 879 Conversions, 181 Pati, S. C. See Panda M., 453 Roth, P. See Markus, M. W., 171 Peche, R. See Arrizabalaga, A., 799 Sahetchian K. See Heiss, A., 531 Pérez-Tejeda, P. See Lopez, P., 57 Sai Prakash, P. K. See Rajanna, K. C., 153 Perrin, D. See Barbé, P., 829 —,; See Matha, M., 637 —; See Barbé, P., 849 —; See Rajanna, K. C., 865 Perry, R. A. Sanchez, F. See Lépez, P., 57 —; Miller, J. A.: An Exploratory Investigation of the Scacchi, G. See Barbé, P., 829 Use of Alkali Metals in Nitrous Oxide Control, —; See Barbé, P., 849 217 Schneider, W. F. See Wallington, T. J., 627 Petersen, E. L. See Rohrig, M., 599 Sehested, J. Pierce, J. A. See Luo, D., | —; Nielsen, O. J.; Rinaldi, C. A.; Lane, S. 1.; Ferrero, Pohlmeier, A. J. C.: Kinetics and Mechanism of the Reaction of —;Knoche, W.: Kinetics of the Complexation of CF, Radicals with NO, ,5 79 Al** with Aminoacids, IDA and NTA, 125 Seinfeld, J. H. See Grosjean, E., 373 Poulet, G. See Bedjanian, Y., 383 Seuwen, R. —:; See Daéle, V., 589 —; Warneck, P.: Oxidation of Toluene in NO, Free Rajanna, K. C. Air: Product Distribution and Mechanism, 315 —; Reddy, K. N.; Kumar, U. U.; Sai Prakash, P. K.: Shukla, A. See Bajpai, P., 413 A Kinetic Study of Electron Transfer from Sidebottom, H. See Teton, S., 291 L-Ascorbic Acid to Sodium Perborate and Potas- Smith, D. F. See Wells, J. R., 475 sium Peroxy Disulphate in Aqueous Acid and Solomon, F. See Rajanna, K. C., 865 Micellar Media, 153 Straccia, A. M. See Wallington, T. J., 627 —,; See Matha, M., 637 Sun, S. S. See Chen, Y.-F., 345 —; Solomon, F.; Moazzam Ali, M.; Sai Prakash, Sundari, L. B. T. See Matha, M., 637 946 AUTHOR INDEX Suri, D. —; Ball, J. C.; Straccia, A. M.; Hurley, M. D.; Kaiser, —+; Kothari, S.; Banerji, K. K.: Kinetics and E. W.; Dill, M.; Schneider, W. F.; Bilde, M.: Ki- Mechanism of the Oxidation of Some Thioacids netics and Mechanism of the Reaction of Cl by Benzyltrimethylammonium Dichloroiodate, Atoms with CH,CO (Ketene), 627 681 Walters, E. A. See Johnson, D. E., 43 Swamy, C. S. See Tony, K. J., 657 Wang, M. L. Swihart, M. T. —;Liu, B.-L.: Homogeneous Reaction of Carbon —; Carr, R. W.: Pulsed Laser Powered Homogeneous Disulfide and o-Phenylene Diamine Catalyzed by Pyrolysis for Reaction Kinetics Studies: Probe Tertiary Amines, 885 Laser Measurement of Reaction Time and Tem- Wang, T.-T. perature, 817 —; Chang, C.-H.; Huang, T.-C.: Kinetics of the Nu- Tavadyan, L. A. cleophilic Substitution of Benzyltributylammo- —; Mardoyan, V. A.; Musaelyan, M. V.: The Reactiv- nium Bromide with Allyl, Butyl, and Benzyl ity of tert-Butylperoxy Radicals with Respect to Chlorides and with Benzyl Acetate and Benzyl Aldehydes, Amines, and Ethers in Solution. The Ether, 615 Importance of Polar Effect, 555 Wangberg, I. See Hallquist, M., 467 Teng, H. —:; See Langer, S., 299 —; Characteristics of the Hydrate Layer Formed at Warneck, P. See Seuwen R., 315 the Liquid CO,—Water Interface, 935 Watanabe, A. See Alam, M. M., 405 Teton, S. Wawrzenczyk, M. See Cyfert, M., 103 —; Mellouki, A.; Le Bras, G.; Sidebottom H.: Rate Weijun, N. Constants for Reactions of OH Radicals with a —; Yan, Z.; Kecheng, H.; Changlun, T.; Hangsheng, Series of Asymmetrical Ethers and tert-Butyl Al- Y.: Kinetics of Oxidation of SCN~ by Diperi- cohol, 291 odato Cuprate(II]) (DPC) in Alkaline Medium, Theys, J. See Huybrechts, G., 755 899 Thiemann, W. See Lavabre, D., 333 Wells, Jj. R. Tony, K. J. —; Wiseman, F. L.; Williams, D. C.; Baxley, J. S.; —y; Mahadevan, V.; Rajaram, J.; Swamy, C. S.: Smith, D. F.: The Products of the Reaction of the Ruthenium(II])-Schiff Base Complex Catalyzed Hydroxyl Radical with 2-Ethoxyethyl Acetate, Oxidation of Secondary Alcohols by N-Methyl- 475 morpholine-N-Oxide or Thallium(III) Acetate, Weston, J. See McDowell, D. R., 61 657 Wiesen, P. See Becker, K. H., 115 - Tyndall, G. S. See Orlando, J. J., 433 Williams, D. C. See Wells, J. R., 475 Upadhyay, S. K. See Bajpai, P., 413 Wiseman, F. L. See Wells, J. R., 475 Vakhtin, A. B. See Garmanov, A. B., 71 Wooldridge, M. S. —; The Rate Constant for the Recombination of Tri- —:; Hanson, R. K.; Bowman, C. T.: A Shock Tube fluoromethy! Radicals at T = 296 K, 443 Study of CO + OH > CO, + H and HNCO + Van Mele, B. See Huybrechts, G., 27 OH — Products via Simultaneous Laser Absorp- —,; See Huybrechts, G., 755 tion Measurements of OH and CO,, 361 Veillerot, M. Wooldridge, S. T. —; Foster, P.; Guillermo, R.; Galloo, J. C.: Gas- —y; Hanson, R. K.; Bowman, C. T.: A Shock Tube Phase Reaction of n-Butyl Acetate with the Hy- Study of Reactions of CN with HCN, OH, aud H, droxyl Radical under Simulated Tropospheric using CN and OH Laser Absorption, 245 Conditions: Relative Rate Constant and Product Wu, F. Study, 235 —,; Carr, R. W.: Temperature Dependence of the Re- Verity, B. action of NO with CFCI,CH,O, and CH,CFCIO, —; Bigger, S. W.: The Dependence of Quinine Radicals, 9 Fluorescence Quenching on Ionic Strength, 919 Wu, R. J. Vyazovkin, S. —; Yeh, C. T.: Activation Energy for Thermal De- —:A Unified Approach to Kinetic Processing of composition of Nitric Oxide, 89 Nonisothermal Data, 95 Yan, Z. See Weijun, N., 899 Waddington, D. J. See Costello, A. R., 201 Yeh, C. T. See Wu, R. J., 89 Wallington, T. J. See Orlando, J. J., 433 Yamakoshi, H. See Cafferata, L. F. R., 21 —; See Langer, S., 299 Zetzsch, C. See Koch, R., 807 International Journal of Chemical Kinetics Subject Index to Volume 28 Absorption Cross Section, CF,NO, 71 Elimination Kinetics, 741, 749 Acid Catalysis, 391 Emissions Controls, 217 Acidity Functions, 153 EPR, 555 Addition Kinetics, 165 Equilibrium Thermodynamic Computations, 649 Amis Theory, 865 Esterification, 37 Analysis of Kinetic Data, 95 Esterification Kinetics, 649 Atmospheric Chemistry, 299, 905, 911, 925 Exner Plot, 865 Atmospheric Droplets, 195 Flash Photolysis, 9, 195, 201 Atmospheric Kinetics, 731 Flash Photolysis—laser-induced Fluorescence, 115 Atmospheric Oxidation Kinetics, 433, 461, 467, 531 Flash Photolysis-Resonance Fluorescence, 807 Atmospheric Oxidation Mechanism(s), 315, 373, 497 Flow Discharge, 467 Atmospheric Oxidation Products, 475 Flow Reactor Kinetics, 481, 773 Autocatalysis, 333, 545, 673, 799 Fluorescence Quenching, 919 Autocatalytic Reactions, 103 Formylation Kinetics, 865 Autooxidation, 333 Four-Center Reactions, 353 Base Catalyzed Cleavage, 421 Free Energy Relationships, 57 Batch Reactor, 649 FTIR, 307, 433, 467 Belousov-Zhabotinsky Reaction, 345 FTIR Spectrometer, 627 Binuclear Complex, 57 FTIR Spectroscopy, 299 Book Review, 553 GC-MS Product Measurements, 829, 849 Brown’s Rule, 555 Halocarbon Kinetics, 109 Catalysis, 37 Halogenation Agents, 681 Catalytic Kinetics, 649, 657 Hammett Plots, 283 Catalytic Oxidation, 265 Hammett Relationship, 637 Chain Reaction Mechanism, 489 High Pressure Shock Tube, 599 Charton’s Equation, 165 Hydrogenation Kinetics, 849 Chemical Ionization Mass Spectroscopy, 731 Induction Period, 755 Cleavage Kinetics, 421 Infrared Emission, 599 Combustion Kinetics, 665, 773 Infrared Fluorescence, 579 Complexation Kinetics, 125, 893 Inhibition Kinetics, 413 Computer Kinetic Modeling, 755, 773 Initiation of Fuel Oxidation, 665 Concerted Processes, 791 Intracavity Laser Absorption, 443 Criegee Intermediate, 721 Ion Exchange Resins, 37 Dark Reactions, 43 Ionic Strength, 919 Decarboxylation Kinetics, 791 Isoconversional Methods, 95 Dechlorination Kinetics, 791 Isomerization Kinetics, 531 Decomposition Mechanism, NO, 89 Isotope Effects, 307 Dehydration Kinetics, 687 Isotopic, Substitution, 763 Dehydrogenation, 829, 849 Kinetic Mechanisms, 181, 217, 333 Deposition Kinetics, Nickel, 259 Kinetic Modeling, 27, 137, 829, 849 Diode Laser Absorption, 467 Kirkwood Theory, 865 Discharge Flow Kinetics, 383 Laser Absorption Diagnostics, 361 Disproportionation/combination ratios, 61, 109 Laser-Induced Fluorescence, 589 Eigen-Wikens Mechanism, 125 Laser Photolysis, 245, 405 Electrodeless Plating, 259 Laser Photolysis/laser-Induced Fluorescence, 291 Electron Transfer Kinetics, 57, 153 Laser Pyrolysis, 817 International Journal of Chemical Kinetics, Vol. 28, 947-948 (1996) © 1996 John Wiley & Sons, Inc. CCC 0538-8066/96/120947-02 948 SUBJECT INDEX Leffler Plot, 865 Shock Tube, 79, 137, 171, 245 Mass Spectrometry, 879, 935 Shock Tube Kinetics, 361 Mass Spectroscopy Detection, 383 Smog Chamber, 235, 373, 433, 475, 497, 627, 911 Micelles, 153, 637 Smog Chamber Studies, | Moist CO Oxidation, 773 Solvent Effect, 21, 265, 865 Molecular Orbital Theory Calculations, 693 Solvent Effects, in Mixtures, 57 Nitrozation Mechanisms, 307 Spectrophotometry, 705, 799, 893 Nonisothermal Kinetics, 95 Static Reactor Kinetics, 829, 849 Nucleophilic Substitution, 615 Stern Volmer Plot, 919 OOC,H,OH, 531 Stirred-Flow Reactor, 353 Outer Sphere Complexes, 705 Stopped Flow Kinetics, 275 Oscillating Reactions, 345 Stopped Flow Technique, 125 Oxidation Kinetics, 103, 153, 453, 545, 637, 657, Structure Reactivity Relations, 453, 467 673, 681, 713, 799, 873, 899 Structure-Reactivity Relationships, 637, 807 Oxime Formation, 687 Substituent Effects, 61, 109, 165, 265, 461 Oxygenated Solution Kinetics, 201 Substituent Effects on Reactivity, 911 Ozonolysis, 461, 721 Sugar Oxidation Kinetics, 413 Photodissociation, CF,NO, 71 Swain Parameters, 57 Polar Effect, 555 Taft Relationship, 873 Pressure Falloff, 599 Template Mechanism, 893 Product Analysis, 935 Ternary Complex Formation, 275 Product Yields, 879 Thermal Decomposition, 21 Proton-Transfer Mechanisms, 307 Thermal Lensing, 817 Pulse Radiolysis, 443 Thermochemical Kinetics, 665 Pyrolysis Kinetics, 27, 181, 353, 741, 749, 755, 829, Thermodynamics, 553 849 Transition State Theory, 79 Pyrolysis Mechanisms, 481 Tropospheric Kinetics, 565, 763 Quantum Calculations, 627 Unimolecular Decomposition, 817 Recombination Kinetics, 443 Unimolecular Kinetics, 599 Relative Rate Method, 565, 609 Volume of Activation, 791 Relative Rate Technique, 1, 433, 905, 925 Zwitterions, 165 Schiff Bases, 657, 741

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