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List of Publications of Prof. J. K. Thomas 1. The Degradation of Polymethacrylic acid by Hydroxyl Radicals. J. H. Baxendale and J. K. Thomas, Chem. Ind. 1956, 377. 2. The Degradation of Polymethacrylic acid by Ultraviolet and X-irradiation. J. H. Baxendale and J. K. Thomas, Trans. Faraday Soc. 1958, 54, 1515. 3. The Reaction of Ferric Ion with Acetoin (3-Hydroxy-2- Butanone) in Aqueous Solution. J. K. Thomas, G. Trudel, and S. Bywater, J. Phys. Chem. 1960, 64, 51- 54. 4. The Radiation-Induced Graft Co-polymerization of Meth- acrylic Acid to Nylon. R. Roberts and J. K. Thomas, J. Society of Dyers and Colourists. 1960, 76, 342 (1960). 5. Production of Antistatic Coatings on Fibresby Irradiation Grafting of Vinylic Amines. J. K. Thomas, Provisional Patent Specification (1960). 6. The Radiation-Induced Graft Copolymerization of 4-Vinyl Pyridine and Acrylamide to Nylon 6.6. J. A. W. Sykes and J. K. Thomas, J. Polymer Sci. 1961, 55, 721-729. 7. The Radiation-Induced Graft Copolymerization of 4-Vinvl Pyridine to Terylene. M. R. Houlton and J. K. Thomas, J. Appl. Rad. and Isotopes 1961, 11, 45-47. 8. The Radiolysis of Aqueous Solutions at High Intensities. J. K. Thomas and E. J. Hart, Rad. Res. 1962, 17, 408- 418. 9. Reactions Constants of the Hydrated Electron. S. Gordon, E. J. Hart, M. S. Matheson, J. Rabani, and J. K. Thomas, J. Am. Chem. Soc. 1963, 75, 1375-1377. 10. Hydrated Electron Rate Constants of Some Protein and Nucleic Acid Constituents. E. J. Hart, S. Gordon, and J. K. Thomas, Rad. Res. 1963, 19, 182. 11. The Rate Constants for Hydrogen Atom and Hydroxyl Radical Reactions in Aqueous Solution. J. K. Thomas, Rad. Res. 1963, 19, 181-182. 12. The Rate Constants for H-Atom Reactions in Aqueous Solutions. J. K. Thomas, J. Phys. Chem. 1963, 67, 2593-2595. 13. Reactions of the Hydrated Electron. S. Gordon, E. J. Hart, M. S. Matheson, J. Rabani, and J. K. Thomas, Disc. of the Faraday Soc. 1963, 36, 193-205. 14. A Review of the Radiation Chemistry of Single Carbon Compounds and Some Reactions of the Hydrated Electron in Aqueous Solution. E. J. Hart, J. K. Thomas, and S. Gordon, Rad. Res. Suppl. 1964, 4, 74-87. 15. Pulsed Electron Beam Kinetics. H. Fricke and J. K. Thomas, Rad. Res. Suppl. 1964, 4, 35-53. 16. Odd Hydrogen Atoms at High Intensities. Discussion: Rate Constants and Diffusion Kinetics. J. K. Thomas, Rad. Res. Suppl. 1964, 4, 111-113 (1964). 17. The Ultra Violet Spectra of Transients Produced in the Radiolysis of Aqueous Solutions. S. Gordon, E. J. Hart, and J. K. Thomas, J. Phys. Chem. 1964, 68, 1262-1264. 18. The Rates of Reaction of the Hydrated Electron in Aqueous Inorganic Solutions. J. K. Thomas, S. Gordon, and E. J. Hart, J. Phys. Chem. 1964, 68, 1524-1527. 19. Rate Constants of Hydrated Electron Reactions with Organic Compounds. E. J. Hart, S. Gordon, and J. K. Thomas, J. Phys. Chem. 1964, 68, 1271-1274. 20. Pulse Radiolysis Studies of Aqueous Sodium Chloride Solutions. M. Anbar and J. K. Thomas, J. Phys. Chem. 1964, 68, 3829-3835. 21. Photolysis and Radiolysis of Aqueous Solutions at High Reaction Intensities. J. K. Thomas and E. J. Hart, J. Phys. Chem. 1964, 68, 2414-2418. 22. Absolute Rate Constants for H-Atom Reactions in Aque- ous Solutions. J. P. Sweet and J. K. Thomas, J. Phys. Chem. 1964, 68, 1363-1368. 23. Rate Constants of Hydrated Electron Reactions with Some Aromatic Acids, Alkyl Halides, Heterocyclic Com- pounds and Werner Complexes. A. Szutka, J. K. Thomas, S. Gordon, and E. J. Hart, J. Phys. Chem. 1965, 69, 289-292. 24. The Rates of Reaction of the Hydroxyl Radical. J. K. Thomas, Trans. Faraday Soc. 1965, 61. 25. The Nature of the Reducing Species in the Radiolysis of Acidic Aqueous Solutions at High Intensities. J. K. Thomas, Int. J. Appl. Rad. and Isotopes 1965, 16, 451- 456 (1965). 26. Absorption Spectrum of the Hydroxyl Radical. J. K. Thomas, J. Rabani, M. S. Matheson, E. J. Hart, and S. Gordon, J. Phys. Chem. 1966, 70, 2409-2410 (July 1966). 27. Search for Spurs Using Pulse Radiolysis. J. K. Thomas, Proc. 5th Informal ConVerence on the Radiation Chem- istry of Water, University of Notre Dame, Oct. 24-26, 1966. 28. The Hydrated Electron and the H-Atom in the Radiolysis of Water. J. K. Thomas, Rad. Res. 1967, 179-194. 29. Properties of Solvated Electrons. J. K. Thomas, Energetics Mechanisms in Radiation Biology, G. O. Phillips, Ed. 1968, p 103-116. 30. Pulse Radiolysis of Aqueous Solutions of Alkyl Halides. I. Methyl Iodide Solutions. J. K. Thomas, Proc. 2nd Tihany Symp. on Radiation Chemistry, J. Dobo and P. Kedvig, Eds., Publ. House of Hungarian Acad. Sci., Budapest, 1967, pp 115-122. 31. Pulse Radiolysis Studies of Styrene. D. J. Metz, R. C. Potter, and J. K. Thomas, J. Polym. Sci. 1967,A-l 5, 877. 32. Pulse Radiolysis Studies of the Formation of Triplet Excited States in Cyclohexane Solutions of Naphthalene and Anthracene. J. K. Thomas and J. W. Hunt, J. Chem. Phys. 1967, 46, 2954-2958. 33. Pulse Radiolysis of Aqeuous Solutions of Methyl Iodide and Methyl Bromide. The Reactions of iodine Atoms and Methyl Radicals in Water. J. K. Thomas, J. Phys. Chem. 1967, 71, 1919-1925. 34. Direct Observation of Regions of High Ion and Radical Concentrations in the Radiolysis of Water and Ethanol. J. K. Thomas and R. V. Bensasson, J. Chem. Phys. 1967, 46, 4147-4148. 35. Pulse Radiolysis Studies Using Nanosecond Electron Pulses: Observation of Hydrated Electrons. J. W. Hunt and J. K. Thomas, Rad. Res. 1967, 32, 149-163 (Sept. 1967). 9060 J. Phys. Chem. B 1999, 103, 9060-9069 10.1021/jp991712i CCC: $18.00 © 1999 American Chemical Society Published on Web 09/23/1999

List of Publications of Prof. J. K. Thomas

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Page 1: List of Publications of Prof. J. K. Thomas

List of Publications of Prof. J. K. Thomas

1. The Degradation of Polymethacrylic acid by HydroxylRadicals. J. H. Baxendale and J. K. Thomas,Chem. Ind.1956, 377.

2. The Degradation of Polymethacrylic acid by Ultravioletand X-irradiation. J. H. Baxendale and J. K. Thomas,Trans. Faraday Soc.1958, 54, 1515.

3. The Reaction of Ferric Ion with Acetoin (3-Hydroxy-2-Butanone) in Aqueous Solution. J. K. Thomas, G.Trudel, and S. Bywater,J. Phys. Chem. 1960, 64, 51-54.

4. The Radiation-Induced Graft Co-polymerization of Meth-acrylic Acid to Nylon. R. Roberts and J. K. Thomas,J.Society of Dyers and Colourists. 1960, 76, 342 (1960).

5. Production of Antistatic Coatings on Fibresby IrradiationGrafting of Vinylic Amines. J. K. Thomas, ProvisionalPatent Specification (1960).

6. The Radiation-Induced Graft Copolymerization of 4-VinylPyridine and Acrylamide to Nylon 6.6. J. A. W. Sykesand J. K. Thomas,J. Polymer Sci.1961, 55, 721-729.

7. The Radiation-Induced Graft Copolymerization of 4-VinvlPyridine to Terylene. M. R. Houlton and J. K. Thomas,J. Appl. Rad. and Isotopes1961, 11, 45-47.

8. The Radiolysis of Aqueous Solutions at High Intensities.J. K. Thomas and E. J. Hart,Rad. Res.1962, 17, 408-418.

9. Reactions Constants of the Hydrated Electron. S. Gordon,E. J. Hart, M. S. Matheson, J. Rabani, and J. K. Thomas,J. Am. Chem. Soc.1963, 75, 1375-1377.

10. Hydrated Electron Rate Constants of Some Protein andNucleic Acid Constituents. E. J. Hart, S. Gordon, andJ. K. Thomas,Rad. Res.1963, 19, 182.

11. The Rate Constants for Hydrogen Atom and HydroxylRadical Reactions in Aqueous Solution. J. K. Thomas,Rad. Res.1963, 19, 181-182.

12. The Rate Constants for H-Atom Reactions in AqueousSolutions. J. K. Thomas,J. Phys. Chem.1963, 67,2593-2595.

13. Reactions of the Hydrated Electron. S. Gordon, E. J. Hart,M. S. Matheson, J. Rabani, and J. K. Thomas,Disc. ofthe Faraday Soc.1963, 36, 193-205.

14. A Review of the Radiation Chemistry of Single CarbonCompounds and Some Reactions of the HydratedElectron in Aqueous Solution. E. J. Hart, J. K. Thomas,and S. Gordon,Rad. Res.Suppl.1964, 4, 74-87.

15. Pulsed Electron Beam Kinetics. H. Fricke and J. K.Thomas,Rad. Res.Suppl.1964, 4, 35-53.

16. Odd Hydrogen Atoms at High Intensities. Discussion:Rate Constants and Diffusion Kinetics. J. K. Thomas,Rad. Res.Suppl.1964, 4, 111-113 (1964).

17. The Ultra Violet Spectra of Transients Produced in theRadiolysis of Aqueous Solutions. S. Gordon, E. J. Hart,and J. K. Thomas,J. Phys. Chem.1964, 68, 1262-1264.

18. The Rates of Reaction of the Hydrated Electron inAqueous Inorganic Solutions. J. K. Thomas, S. Gordon,and E. J. Hart,J. Phys. Chem.1964, 68, 1524-1527.

19. Rate Constants of Hydrated Electron Reactions withOrganic Compounds. E. J. Hart, S. Gordon, and J. K.Thomas,J. Phys. Chem.1964, 68, 1271-1274.

20. Pulse Radiolysis Studies of Aqueous Sodium ChlorideSolutions. M. Anbar and J. K. Thomas,J. Phys. Chem.1964, 68, 3829-3835.

21. Photolysis and Radiolysis of Aqueous Solutions at HighReaction Intensities. J. K. Thomas and E. J. Hart,J.Phys. Chem.1964, 68, 2414-2418.

22. Absolute Rate Constants for H-Atom Reactions in Aque-ous Solutions. J. P. Sweet and J. K. Thomas,J. Phys.Chem.1964, 68, 1363-1368.

23. Rate Constants of Hydrated Electron Reactions with SomeAromatic Acids, Alkyl Halides, Heterocyclic Com-pounds and Werner Complexes. A. Szutka, J. K.Thomas, S. Gordon, and E. J. Hart,J. Phys. Chem.1965,69, 289-292.

24. The Rates of Reaction of the Hydroxyl Radical. J. K.Thomas,Trans. Faraday Soc.1965, 61.

25. The Nature of the Reducing Species in the Radiolysis ofAcidic Aqueous Solutions at High Intensities. J. K.Thomas,Int. J. Appl. Rad. and Isotopes1965, 16, 451-456 (1965).

26. Absorption Spectrum of the Hydroxyl Radical. J. K.Thomas, J. Rabani, M. S. Matheson, E. J. Hart, and S.Gordon, J. Phys. Chem.1966, 70, 2409-2410 (July1966).

27. Search for Spurs Using Pulse Radiolysis. J. K. Thomas,Proc. 5th Informal ConVerence on the Radiation Chem-istry of Water, University of Notre Dame, Oct. 24-26,1966.

28. The Hydrated Electron and the H-Atom in the Radiolysisof Water. J. K. Thomas,Rad. Res.1967, 179-194.

29. Properties of Solvated Electrons. J. K. Thomas,EnergeticsMechanisms in Radiation Biology, G. O. Phillips, Ed.1968, p 103-116.

30. Pulse Radiolysis of Aqueous Solutions of Alkyl Halides.I. Methyl Iodide Solutions. J. K. Thomas,Proc. 2ndTihany Symp. on Radiation Chemistry, J. Dobo and P.Kedvig, Eds., Publ. House of Hungarian Acad. Sci.,Budapest,1967, pp 115-122.

31. Pulse Radiolysis Studies of Styrene. D. J. Metz, R. C.Potter, and J. K. Thomas,J. Polym. Sci.1967, A-l 5,877.

32. Pulse Radiolysis Studies of the Formation of TripletExcited States in Cyclohexane Solutions of Naphthaleneand Anthracene. J. K. Thomas and J. W. Hunt,J. Chem.Phys.1967, 46, 2954-2958.

33. Pulse Radiolysis of Aqeuous Solutions of Methyl Iodideand Methyl Bromide. The Reactions of iodine Atomsand Methyl Radicals in Water. J. K. Thomas,J. Phys.Chem.1967, 71, 1919-1925.

34. Direct Observation of Regions of High Ion and RadicalConcentrations in the Radiolysis of Water and Ethanol.J. K. Thomas and R. V. Bensasson,J. Chem. Phys.1967,46, 4147-4148.

35. Pulse Radiolysis Studies Using Nanosecond ElectronPulses: Observation of Hydrated Electrons. J. W. Huntand J. K. Thomas,Rad. Res.1967, 32, 149-163 (Sept.1967).

9060 J. Phys. Chem. B1999,103,9060-9069

10.1021/jp991712i CCC: $18.00 © 1999 American Chemical SocietyPublished on Web 09/23/1999

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36. Observation by Nanosecond Pulse Radiolysis of theReactions of Ions in the Radiolysis of Liquids. J. K.Thomas,Symposium on Electron Affinities of AromaticHydrocarbons and Chemistry of Radical Ions,AmericanChemical Society, San Francisco Meeting, April 2-5,1968.

37. Nanosecond Pulse Radiolysis Studies of the Reaction ofIons in Cyclohexane Solutions. J. K. Thomas, K.Johnson, T. Klippert, and R. Lowers,J. Chem. Phys.1968, 48, 1608-1616.

38. Nanosecond Pulse Radiolysis of Carbon Tetrachloride. J.K. Thomas and R. Cooper,AdV. Chem. Ser.(AmericanChemical Society),1968, 82, 351.

39. The Formation of Excited States in the Nanosecond PulseRadiolysis of Solutions of Benzene and Toluene. R.Cooper and J. K. Thomas,J. Chem. Phys. 1968, 48,5097 (1968).

40. Nanosecond Pulse Radiolysis of Aniline. R. Cooper andJ. K. Thomas,J. Chem. Phys.1968, 48, 5103 (1968).

41. Reactions of Ions in Hydrocarbons. J. K. Thomas,ACSNational Meeting Abstracts, Petroleum Chemistry Sec-tion, p. D18 (1968).

42. Observation of Excited States by Pulse Radiolysis. J. K.Thomas, In “ObserVation of the Excited States”, A.Lamola, Ed. (1968).

43. Methods of Production of Solvated Electrons & TheirPhysical and Chemical Properties. J. K. Thomas,Rad.ReV. 1968, 1-2, 183.

44. One Electron Oxidation and P-Type Delayed Fluorescenceof an Aromatic Amine. Study by Pulse Radiolysis. J.K. Thomas and R. V. Bensasson,Int. J. for Rad. Phys.and Chem.1969, 1, 185.

45. Formation of Excited Singlet States in the NanosecondPulse Radiolysis and Nanosecond Flash Photolysis ofAromatic Molecules in Liquid and Solid Solutions. J.K. Thomas,J. Chem. Phys.1969, 51, 770-778.

46. Pulse Radiolysis of Benzene Cyclohexane Mixtures. J. K.Thomas and I. Mani,J. Chem. Phys.1969, 51, 1834-1838.

47. Elementary Processes & Reactions in the Radiolysis ofWater. J. K. Thomas,AdV. Rad. Chem.1969, 1, 103-198.

48. Applications in Radiation Chemistry. E. J. Hart and J. K.Thomas, “Gasiometric Analysis with the Apparatus ofVan Slyke, Neil, and Plazin”, Williams Wilkens, Bal-timore (1969).

49. Excited States and Reactions in Liquids. J. K. Thomas,Ann. ReV. Phys. Chem.1970, 21, 17-38.

50. The Nature and Reactions of Initial Species in Radiolysis.J. K. Thomas, “Charged Particles in Solids and Liq-uids”, Institute of Physics London, No. 8, 174-18 (1970).

51. The Biphotonic Photolysis of Liquid Benzene. J. K.Thomas and J. T. Richards,Chem. Phys. Lett.1970, 5,527-528.

52. Trapping of Electrons in Low-temperature Glasses. APulse Radiolysis Study. J. K. Thomas and J. T. Richards,J. Chem. Phys.1970, 53, 218-224.

53. The Laser Flash Photolysis of Solutions of Naphthaleneand 2,3-Benzanthracene. J. K. Thomas, R. McNeil, andJ. T. Richards,J. Phys. Chem.1970, 74, 2290-2294.

54. Formations of Ions and Excited States in the LaserPhotolysis of Solutions of Pyrene. J. K. Thomas, J. T.Richards, and G. West,J. Phys. Chem.1970, 74, 4137-4141.

55. Effect of Solvent on the Flash Photolysis and LaserPhotolysis of N,N,N′,N-Tetramethyl-paraphenylene Di-amine in Solution. J. K. Thomas and J. T. Richards,Trans. Faraday Soc.1970, 66, 621-632.

56. A Nanosecond Pulse Radiolysis Study of Electron Trap-ping in Organic Glasses. J. K. Thomas and J. T.Richards,International Meeting of Primary RadiationEffects in Chemistry and Biology, Buenos Aires, Ar-gentina, Abstract No. B-8. March 9-14, 1970.

57. Photoionization of Molecules in Low-Temperature Glasses.J. K. Thomas, and J. T. Richards,Chem. Phys. Letts.1971, 8, 13.

58. Pulsed Laser Excitation of Benzene in Solution. J. K.Thomas, R. Bensasson, and J. T. Richards,Chem. Phys.Letts.1971, 2, 13.

59. Reactivity of Excited States in Cumene Liquid and Glassat Low Temperatures. J. K. Thomas and J. T. Richards,J. Chem. Phys.1971, 55, 3638-3541.

60. The Production of Excited States by Lasers and IonizingRadiation. J. K. Thomas,Record of Chemical Progress,1971, 32, 145-163.

61. Direct Observation of Solvated Electrons in LiquidHydrocarbons. J. K. Thomas and J. R. Richards,Chem.Phys. Letts.1971, 10, 317-321.

62. Trapping of Electrons in Liquids. J. K. Thomas, J.Magnusson, and J. Richards,Int. J. Radiat. Phys. Chem.1971, 3, 295-308.

63. Two Photon Laser Photo-ionisation of Molecules inLiquids. G. Beck and J. K. Thomas,Chem. Phys. Letts.1972, 13, 295-297.

64. Picosecond Observations of Some Ionic and Excited-stateProcesses in Liquids. G. Beck and J. K. Thomas,J. Phys.Chem.1972, 76, 3856-3863.

65. Spectra of Transitory Species in the Pulse Radiolysis ofAlkyl Benzenes. R. V. Bensasson, J. T. Richards, T.Gangwer, and J. K. Thomas,Chem. Phys. Letts.1972,14, 430-432.

66. Solvation of Electrons in 3-methylhexane at 77-K. J. K.Richards, J. K. Thomas,J. Chem. Phys.1972, 57, 3025-3026.

67. The Reactions of Electrons in Glycerol. Takashi Kajiwaraand J. K. Thomas,J. Phys. Chem.1972, 76, 1700-1706.

68. Dynamics of Electrons in Nonpolar Liquids. G. Beck andJ. K. Thomas,J. Chem. Phys.1972, 57, 3649-3654.

69. Picosecond Pulse Radiolysis of Cyclohexane Solutions.G. Beck and J. K. Thomas,Chem. Phys. Letts.1972,16, 318-319.

70. Applications of the Van Slyke Manometric Apparatus toRadiation Chemistry. J. K. Thomas and E. J. Hart,Argonne Nat. Lab. Reports.ANL: 7856, 1-30 (1972).

71. Effect of Micellular Solubility on Kinetics in Solution. J.K. Thomas and S. C. Wallace,Rad. Res.1972, 10, 76.

72. Excited States in the Nanosecond Pulse Radiolysis andLaser Flash Photolysis of N,N-dimethylaniline. J. K.Thomas, E. J. Hart, and J. T. Richards,J. Phys. Chem.1972, 76, 3805-3812.

73. Reactions in Micellar Systems. Stephen C. Wallace andJ. K. Thomas,Rad. Res.1973, 54, 49-62.

74. Formation of Excited States in the Radiolysis of p-xylene.T. Gangwer and J. K. Thomas,Rad. Res.1973, 54, 192-206.

75. Laser Photoionization of Aromatic Hydrocarbons in Mi-cellar Solution. S. C. Wallace, M. Gra¨tzel, and J. K.Thomas,Chem. Phys. Letts.1973, 23, 359-362.

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76. On the Dynamics of Pyrene Fluorescence Quenching inAqueous Ionic Micellar Systems. Factors Affecting thePermeability of Micelles. M. Gra¨tzel and J. K. Thomas,J. Am. Chem. Soc.1973, 95, 6885-6889.

77. Techniques in Pulse Radiolysis. M. Gra¨tzel and J. K.Thomas, International Conference on PhotonuclearReactions and Applications, March 26-30, 1973 p1107-1120.

78. Rotational Diffusion Analysis of the ConformationalAlterations Produced in Plasminogen by Certain Anti-fibrinolytic Amino Acids. F. J. Castellino, W. J. Brock-way, J. K. Thomas, Hui-tseh Liao, and A. B. Rawitch,Biochem.1973, 12, 2787-2791.

79. Photochemical Reactions in Micelles of Biological Im-portance. M. Chen, M. Gra¨tzel, and J. K. Thomas,Chem.Phys. Letts.1974, 24, 65-68.

80. Trapping of Hydrated Electrons by Cetyl PyridiniumChloride Micelles. M. Gra¨tzel, J. K. Thomas, and L. K.Patterson,Chem. Phys. Letts.1974, 29, 393-396.

81. Formation of Excited States and Ions in the Radiolysis ofBenzyl Alcohol. A. Kira and J. K. Thomas,J. Chem.Phys.1974, 60, 766-771.

82. Luminescence Decay of Hydrophobic Molecules Solubi-lized in Aqueous Micellar Systems. A Kinetic Model.P. P. Infelta, M. Gra¨tzel, and J. K. Thomas,J. Phys.Chem.1974, 78, 190-195.

83. Equilibria Between Triplet States of Aromatic Hydrocar-bons. A. Kira and J. K. Thomas,J. Phys. Chem.1974,78, 196-199.

84. Laser Photoionization in Micellar Solutions. The Fate ofPhotoelectrons. M. Gra¨tzel and J. K. Thomas,J. Phys.Chem.1974, 78, 2248-2254.

85. Proton Nuclear Magnetic Resonance and Laser PhotolysisStudies of Pyrene Derivatives in Aqueous and MicellarSolutions. M. Gra¨tzel, K. Kalyanasundaram, and J. K.Thomas,J. Am. Chem. Soc.1974, 96, 7869-7874.

86. Dynamics of Pyrene Fluorescence in Micelles and Mem-brane Vesicles. S. Cheng, M. Gra¨tzel, and J. K. Thomas,Proceedings of the 5th L. H. Gray Memorial Conference,Sept. 10-11, University of Sussex, England. 193-211pp (1974).

87. Dynamics of Pyrene Fluorescence in Escherichia coliMembrane Vesicles. S. Cheng, J. K. Thomas, and C. F.Kulpa, Biochem.1974, 13, 1135-1139.

88. Effect of Temperature on the Rates of Reaction of ExcessElectrons in Liquid Hydrocarbons. G. Beck and J. K.Thomas,J. Chem. Phys.1974, 60, 1705-1706.

89. Formation of Ions and Excited States in the PulseRadiolysis of Benzonitrile. A. Kira and J. K. Thomas,J. Phys. Chem.1974, 78, 2094-2098.

90. Dynamics of Pyrene Fluorescence in Phospholipid Disper-sion. S. Cheng and J. K. Thomas,Rad. Res.1974, 60,268-279.

91. Reactions of Solvated Electrons with Solutes at HighConcentrations. A Laser Photolysis and Pulse RadiolysisStudy. A. Bromberg and J. K. Thomas,J. Chem. Phys.1975, 63, 2124-2130.

92. Catalysis of Electron and Electron Transfer Reactions inMicellar and Protein Systems. M. Gra¨tzel, M. Cooper,and J. K. Thomas,Rad. Res.1975, p 511-523.

93. Behavior of Hydrated Electrons in Micellar Solution.Studies with Cetyltrimethyl- ammonium Bromide-cetylpyridinium Chloride Mixed Micelles. L. K. Patter-son, M. Gratzel, and J. K. Thomas,J. Phys. Chem.1975,79, 956-960.

94. On the Nature of Solubilized Water Clusters in AerosolOT/Alkane Solutions. A Study of the Formation ofHydrated Electrons and 1,8-anilinonaphthalene SulfonateFluorescence. M. Wong, M. Gra¨tzel, and J. K. Thomas,Chem. Phys. Lett.1975, 30, 329-333.

95. Post-irradiation Effects in the Radiolysis of Cumene at77-K: The Yield of Luminescence. I. Platzner and J. K.Thomas,Int. J. Radiat. Phys. Chem.1975, 7, 573-576.

96. Electrolyte-induced Phase Transitions in Micellar Systems.A Proton and Carbon-13 Nuclear Magnetic ResonanceRelaxation and Photochemical Study. K. Kalyana-sundaram, M. Gra¨tzel, and J. K. Thomas,J. Am. Chem.Soc.1975, 97, 3915-3922.

97. Ionic Processes in Cumene and p-xylene. T. E. Gangwerand J. K. Thomas,Int. J. Radiat. Phys. Chem.1975, 7,305-316.

98. Electron Reactions and Electron Transfer Reactions Cata-lyzed by Micellar Systems. M. Gra¨tzel, J. J. Kozak, andJ. K. Thomas,J. Chem. Phys.1975, 62, 1632-1640.

99. Kinetic Studies in Bile Acid Micelles. M. Chen, M.Gratzel, and J. K. Thomas,J. Am. Chem. Soc.1975,97, 2052-2057.

100. Fluorescence Probing of Inverted Micelles. The State ofSolubilized Water Clusters in Alkane/Diisooctyl Sulfo-succinate (Aerosol OT) Solution. M. Wong, J. K.Thomas, and M. Gra¨tzel, J. Am. Chem. Soc.1976, 98,2391-2397.

101. Effect of Cholinergic Ligands on the Lipids of Acetyl-choline Receptor-rich Membrane Preparations fromTorpedo California. M. Martizen-Carrion, M. A. Raf-ferty, J. K. Thomas, and V. Sator,J. SupramolecularStruc.1976, 4, 373-380.

102. The Application of Fluorescence Techniques to the Studyof Micellar Systems. M. Gra¨tzel and J. K. Thomas,Modern Fluorescence, Vol. 2, Plenum Press, New York,169-213 (1976).

103. Observation of Excited States in the Radiolysis of LiquidHydrocarbons. J. K. Thomas,Int. J. Radiat. Phys. Chem.1976, 8, 1-12.

104. The Study of Rous Sarcoma Virus-transformed BabyHamster Kidney Cells Using Fluorescent Probes. Haydn.E. Edwards, J. K. Thomas, Gary R. Burleson, and C. F.Kulpa, Biochim. Biophys. Acta1976, 448, 451-459.

105. Laser Induced Photoionization in Lipid Aggregates. D. J.Barber, D. A. Morris, and J. K. Thomas,Chem. Phys.Lett. 1976, 37, 481-484.

106. On the Conformational State of Surfactants in the SolidState and in Micellar Form. A Laser-excited RamanScattering Study. K. Kalyanasundaram and J. K. Tho-mas,J. Phys. Chem.1976, 80, 1462-1473.

107. Kinetic Processes in Escherichia Coli Membranes andCells. A Laser Photolysis Study Using Derivatives ofPyrene. M. Wong, C. F. Kulpa, and J. K. Thomas,Biochim. Biophys. Acta1976, 426, 711-722.

108. Catalysis of Electron and Electron Transfer Reactions inMicellar and Protein Systems. J. K. Thomas,Rad. Res.1976, 511-524.

109. Production of Excited States by Ionizing Radiation. J. K.Thomas,Int’l. J. Rad. Phys. and Chem.1976, 8, 1.

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110. Detection of Higher Excited States of Toluene. G. Beck,J. T. Richards, and J. K. Thomas,Chem. Phys. Letts.1976, 40, 300-303.

111. Two Photon Laser Photolysis of Toluene. G. Beck and J.K. Thomas,J. Chem. Soc., Faraday Trans. I1976, 72,2610-2617.

112. Environmental Effects on Vibronic Band Intensities inPyrene Monomer Fluorescence and their Application inStudies of Micellar Systems. K. Kalyanasundaram andJ. K. Thomas,J. Am. Chem. Soc.1977, 99, 2039-2044.

113. Microviscosity of the Lipid Domains of Normal andHypercholesterolemic. Very Low Density Lipoprotein.F. Castellino, V. A. Ploplis, and J. K. Thomas,Biochem.Biophys. Res. Comm.1977, 75, 857-862.

114. Micellar Catalysis of Radical Reactions. A Spin TrappingStudy. D. P. Bakalik and J. K. Thomas,J. Phys. Chem.1977, 81, 1905-1908.

115. The Effect of Lysoplasmalogen on Some Physical Proper-ties of Dipalmitollecithin Bilayers: A Fluorescent ProbeStudy. D. A. Morris and J. K. Thomas, inMicellization,Solubilization and Microemulsions, Ed. by K. L. Mittal,Plenum Press,1977, Vol. 2, 913-926.

116. A Pulsed Laser Study of Excited States of AromaticMolecules Adsorbed in Globular Proteins. M. Cooperand J. K. Thomas,Radiat. Res.1977, 70, 312-324.

117. Effect of Structure and Charge on Radiation-InducedReactions in Micellar Systems. J. K. Thomas,Acc.Chem. Res.1977, 10, 133-138.

118. Room Temperature Phosphorescence of Aromatic Hydro-carbons in Aqueous Micella Solutions. K. Kalyana-sundaram, F. Grieser, and J. K. Thomas,Chem. Phys.Letts.1977, 51, 501-505.

119. Structure and State of H2O in Reversed Micelles. M.Wong, J. K. Thomas, and T. Nowak,J. Am. Chem. Soc.1977, 99, 4730-4736.

120. Some Kinetic Studies in the Reversed Micellar System-Aerosol OT (Diisooctyl Sulfosuccinate)/H2O/HeptaneSolution. M. Wong and J. K. Thomas,Micellization,Solubilization, and Microemulsions.Ed. by K. L. Mittal,Plenum Press, Vol. 2, 647-664 (1977).

121. Solvent-dependent Fluorescence of Pyrene-3-Carboxal-dehyde and its Applications in the Estimation of Polarityat Micelle-water Interfaces. K. Kalyanasundaram andJ. K. Thomas,J. Phys. Chem.1977, 81, 2176-2180.

122. Photoionization of Pyrene in Alkane Liquids. P. L. Piciuloand J. K. Thomas,J. Chem. Phys.1978, 68, 3260-3264.

123. A Fluorescence-Probe Study of the Interaction of Cyclo-heptaamylose with Arenes and Amphiphillic Molecules.H. E. Edwards and J. K. Thomas,Carbohydr. Res.1978,65, 173-182.

124. The Effect of Micellar Phase on the State and Dynamicsof Some Excited State Charge Transfer Complexes. B.Katusin-Razem, M. Wong, and J. K. Thomas,J. Am.Chem. Soc.1978, 100, 1679-1686.

125. Fast Reactions in Micelles. J. K. Thomas, F. Grieser, andM. Wong,Ber. Bunsenges Phys. Chem.1978, 82, 937-949.

126. Fluorescent Probe Studies of Normal, Persistently Infected,Rous Sarcoma Virus- transformed, and Typsinized RatCells. G. R. Burlson, C. F. Kupa, H. E. Edwards, and J.K. Thomas,Exp. Cell. Res.1978, 116, 291-300.

127. Reactions of Radicals with Lecithin Bilayers. D. J. Barberand J. K. Thomas,Rad. Res.1978, 74, 51-65.

128. Photoionization by Green Light in Micellar Solution. J.K. Thomas and P. Piciulo,J. Am. Chem. Soc.1978, 100,3239-3240.

129. Photoionization by Green Light. J. K. Thomas and P.Piciulo, J. Am. Chem. Soc.1979, 101, 2502.

130. Fluorescence and Proton Nuclear Magnetic ResonanceStudies of Thallous Ions-Crown Ether Complexes inOrganic Solvents. T. Platzner, J. K. Thomas, and M.Gratzel, Z. Naturforsch.1978, 33b, 614-618.

131. On the Nature of Surfactant Vesicle and Micelle Systems.R. McNeil and J. K. Thomas,J. Coll. and Interface Sci.1979, 73, 522-528.

132. Comparative Studies of the Physical State of the LipidPhase of Normal and Hypercholesterolemic Very LowDensity Lipoprotein. V. A. Ploplis, J. K. Thomas, andF. J. Castellino,Chem. Phys. Lipids1979, 23, 49-62.

133. Influence of the Conformational State of Polymethacrylicacid on the Photophysical Properties of Pyrene inAqueous Solution: A Fluorescent Probe and LaserPhotolysis Study. T. S. Chen and J. K. Thomas,J.Polym. Sci., Polym. Chem. Ed.1979, 17, 1103-1116.

134. Energy Transfer from Triplet Aromatic Hydrocarbons toTb3+ and Eu3+ in Aqueous Micellar Solutions. M.Almgren, F. Grieser, and J. K. Thomas,J. Am. Chem.Soc.1979, 101, 2021-2026.

135. Dynamic and Static Aspects of Solubilization of NeutralArenes in Ionic Micellar Solutions. M. Almgren, F.Grieser, and J. K. Thomas,J. Am. Chem. Soc.1979,101, 279-291.

136. One-electron Redox Potentials and Rate of ElectronTransfer in Aqueous Micellar Solution. Partially Solu-bilized Quinones. M. Almgren, F. Grieser, and J. K.Thomas,J. Phys. Chem.1979, 83, 3232.

137. Chemical Processes Induced Radiolytically in Well De-fined Aqueous Systems. J. K. Thomas,Int. J. RadiationOncology Biol. Phys.1979, 5, 1049-1054.

138. Some Radiation and Photochemical Studies in AqueousPolysaccharide Gel Systems. D. J. Wedlock, G. O.Phillips, and J. K. Thomas,Polym. J.1979, 11, 681-689.

139. A Correlation Between the Solubility of Aromatic Hy-drocarbons in the Water and Micellar Solutions, withtheir Normal Boiling Points. M. Almgren, F. Grieser,J. R. Powell, and J. K. Thomas,J. Chem. and Eng. Data.1979, 24, 285.

140. Rate of Exchange of Surfactant Monomer Radicals andLong Chain Alcohols Between Micelles and AqueousSolutions. M. Almgren, F. Grieser, and J. K. Thomas,J. Chem. Soc., Faraday Trans. I1979, 75, 1674-1687.

141. Promotion of Photochemical Reactions by Micellar Sys-tems. J. K. Thomas and M. Almgren, inSolutionChemistry of Surfactants, Ed. by K. L. Mittal, PlenumPub. Co., 2, 559-573 (1979).

142. Pico Second Observations of Energy Transfer in Solution.G. Beck, K. Ding, and J. K. Thomas,J. Chem. Phys.1979, 71, 2611.

143. The Temperature Dependence of the Triplet Lifetimes ofSome Aryl Iodides and Bromides. F. Grieser and J. K.Thomas,J. Chem. Phys.1980, 73, 2115-2119.

144. The Micelle. J. K. Thomas,Encyclopedia of Science, VanNostrand, New York,1980.

145. Micelles in Solar Energy. J. K. Thomas,Proceedings ofACS Symp.Savannah Solar Energy Storage Symposium,1980.

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146. Formation of Excited States by the Pulse Radiolysis ofLiquid Systems. J. K. Thomas and G. Beck, in “LiquidScintillation Counting” Horrocks and Peng, Eds., Acad.Press (1980), p 17.

147. Effect of Temperature on Energy Transfer in LiquidToluene and Cumene. J. K. Thomas and P. Piciulo,AdV.Chem. Ser.(American Chemical Society), 184, MarkS. Wrighton, Ed., pp 97-111 (1980).

148. Radiation Induced Degradation of Polymethacrylic acidin Aqueous Solution. T. S. Chen and J. K. Thomas,Radiat. Phys. Chem.1980, 15, 429-433.

149. Photochemistry in Microemulsions. Photophysical Studiesin Oleate/Hexanol/Hexadecane, Oil in Water Micro-emulsion. S. J. Gregoritch and J. K. Thomas,J. Phys.Chem.1980, 84, 1491-1495.

150. Interfacial Electron Transfer Involving Radical Ions ofCarotene and Diphenylhexatriene in Micelles andVesicles. M. Almgren and J. K. Thomas,Photochem.and Photobiol.1980, 31, 329-335.

151. Photochemical and Photophysical Studies of OrganizedAssemblies. Interaction of Oils, Long-Chain Alcohols,and Surfactants Forming Microemulsions. M. Almgren,F. Grieser, and J. K. Thomas,J. Am. Chem. Soc.1980,102, 3188-3193.

152. On the Nature of Surfactant Vesicle and Micelle Systems.R. McNeil and J. K. Thomas,J. Coll. and Interface Sci.1980, 73, 522-528.

153. Interaction of Lysophosphatidylcholine with Phosphatidyl-choline Bilayers. A Photo Physical and NMR Study. D.Morris, R. McNeil, F. J. Castellino, and J. K. Thomas,Biochim. Biophys. Acta1980, 599, 380-390.

154. Radiation-Induced Reactions in Organized Assemblies. J.K. Thomas,Chem. ReVs. 1980, 80, 283-299.

155. Benzylhexadecyldimethylammonium Chloride in Micro-emulsions and Micelles. R. McNeil and J. K. Thomas,J. Coll. and Interface Sci.1981, 83, (1) 57-65.

156. Photoinduced Electron Transfer in Organized Assemblies.S. S. Atik and J. K. Thomas,J. Am. Chem. Soc.1981,103, 3550-3555.

157. Transport of Photoproduced Ions in Water in Oil Micro-emulsions: Movement of Ions from One Water Pool toAnother. S. S. Atik and J. K. Thomas,J. Am. Chem.Soc.1981, 103, 3543-3550.

158. Photoprocesses in Cationic Microemulsion Systems. S. S.Atik and J. K. Thomas,J. Am. Chem. Soc.1981, 103,4367-4371.

159. Abnormally High Ion Exchange in Pentanol Microemul-sions Compared to Hexanol Microemulsions. S. S. Atikand J. K. Thomas,J. Phys. Chem.1981, 85, 3921-3924.

160. A Crystallographic and Raman Spectroscopic Study of 1,1-Diaminododecane Dihydrochloride Monohydrate. R.McNeil, W. R. Scheidt, and J. K. Thomas,Mol. Cryst.Liq. Cryst.1981, 78, 85-114.

161. Photoreactions of Ferrocene with Visible Light in MicellarSolution. D. M. Papsun, J. K. Thomas, and J. A.Labinger,J. Organomet. Chem.1981, 208, C36-C38.

162. Polymerized Microemulsions. S. S. Atik and J. K. Thomas,J. Am. Chem. Soc.1981, 103, 4279.

163. Electron Capture in Water Pools of Reversed Micelles.G. Bakale, G. Beck, and J. K. Thomas,J. Phys. Chem.1981, 85, 1062-1064.

164. Radiation Chemistry in Organized Assemblies. J. K.Thomas and T. S. Chen,J. Chem. Educ.1981, 58, 140-143.

165. Photochemical Studies of an Oleate Oil in Water Micro-emulsion. S. S. Atik and J. K. Thomas,J. Am. Chem.Soc.1981, 103, 7403-7406.

166. Transport of Ions Between Water Pools in Alkanes. S. S.Atik and J. K. Thomas,Chem. Phys. Lett.1981, 79,351-354.

167. Photochemistry on Colloidal Silica Solutions. J. Wheelerand J. K. Thomas,Inorganic Reactions in OrganizedMedia,Ed., Smith L. Holt, ACS Symposium Series 177,97-111, Amer. Chem. Soc. (1982).

168. Photochemistry at the Surface of Collodial CadmiumSulfide. J. Kuczynski and J. K. Thomas,Chem. Phys.Lett. 1982, 88, 445-447.

169. Photochemistry in Polymerised Microemulsions. S. S.Atik, J. K. Thomas,J. Am. Chem. Soc. 1982, 104, 5868.

170. Effects of Organized Assemblies on Chemical Reactions.J. K. Thomas,ACS Symposium Series(1982), Vol. 198,p 335-343.

171. Photochemistry of Ruthenium Tris Bipyridyl in Cellulose.B. Milosavljevic and J. K. Thomas,J. Phys. Chem.1983,87, 616-621.

172. Photo-induced Charge Separation. J. K. Thomas,Proceed-ings of Institute of Physical Chemistry, Rikken, Japan(1982).

173. Photochemistry in Porous Colloidal Silica Particles. J.Wheeler and J. K. Thomas,J. Phys. Chem.1982, 86,4540-4544.

174. Photochemical Events in Colloidal Clay Solutions. R.DellaGuardia and J. K. Thomas,Proceeding of AberdeenConference on Decontamination(1982).

175. Photochemical Probing of Colloidal Clay Solutions. R.DellaGuardia and J. K. Thomas,J. Phys. Chem.1983,87, 990-998.

176. Luminescence Quenching Studies in NaLS MicellarSystems at 77. K. S. Hashimoto and J. K. Thomas,J.Am. Chem. Soc.1983, 105, 5230.

177. Photoinduced Reactions in Polymerized Microemulsions.S. Atik and J. K. Thomas,J. Am. Chem. Soc.1983, 105,4515-4519.

178. Photochemical Reduction of Carbonate to Formaldehydeon TiO2 Powder. K. Chandrasekaran and J. K. Thomas,Chem. Phys. Letts.1983, 99, 7-10.

179. The Mechanism of the Photochemical Oxidation of Waterto O2 with Silver Chloride Colloids. K. Chandrasekaranand J. K. Thomas,Chem. Phys. Letts.1983, 97, 357-360.

180. Unusual Behavior of Hydroxide Surfactant. S. Hashimoto,J. K. Thomas, D. F. Evans, S. Mukherjee and B. W.Ninheim, J. Coll. and Interface Sci.1983, 95, 594-596.

181. Photochemistry on Colloidal Clays. II. R. DellaGuardiaand J. K. Thomas,J. Phys. Chem.1983, 87, 3550-3557.

182. Photoprocesses on Colloidal Clay Systems. III. R. Della-Guardia and J. K. Thomas,J. Phys. Chem.1984, 88,964 (1984).

183. Photophysics of Polcyclic Aromatic Molecules on TiO2.K. Chandrasekaran and J. K. Thomas,J. Am. Chem. Soc.1983, 105, 6383-6389.

184. Photo Chemical Reactions of Amorphous and CrystallineTiO2 Suspensions in Water. K. Chandrasekaran and J.K. Thomas,J. Chem. Soc. Farad. I1984, 80, 1163-1172 (1984).

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185. Effect of Synthetic Preparation on the PhotochemicalBehavior of Colloidal CdS. J. Kuczynski, B. Milosav-ljevic, and J. K. Thomas,J. Phys. Chem.1983, 87, 3368.

186. Photochemistry of Compounds Adsorbed in Cellulose.Methyl Viologen Redox Reactions. B. Milosavljevic andJ. K. Thomas,Int’l. J. Rad. Chem. Phys.1984, 23, 237.

187. Photochemical Processes on Aluminum Oxide. A PulsedLaser Study. G. Beck and J. K. Thomas,Chem. Phys.Letts.1983, 94, 553.

188. The Effect of Caffeine on the Reactions of the ExcitedState of Pyrene in Micellar Sodium Lauryl Sulfate. J.K. Thomas and S. Hashimoto,Chem. Phys. Letts.1984,109, 115.

189. Photophysical Properties of CdS in Nafion Film. J. P.Kuczynski, B. H. Milosavljevic and J. K. Thomas,J.Phys. Chem.1984, 88, 980.

190. Photophysical Properties of Polyaromatic Molecules Ad-sorbed in TiO2. The Effect of Co-adsorbant. K. Chan-drasekaran and J. K. Thomas,J. Coll. Interface Sci.1984, 100, 116-120.

191. Ion-pair Complexes of Methyl Viologen and AnionicSolutes. J. P. Kuczynski, B. H. Milosavljevic, A. G.Lappin, and J. K. Thomas,Chem. Phys. Letts.1984, 104,149-152.

192. Effect of Environment on Decay Pathways of the SingletExcited State of N,N,N′,N′-Tetramethyl Benzidine. S.Hashimoto and J. K. Thomas,J. Phys. Chem.1984, 88,4044-4049.

193. Surface Effects in the Photochemistry of Colloidal CdS.J. Kuczynski and J. K. Thomas.

194. Photochemistry of the Uranyl Ion in Colloidal SilicaSolution. J. Wheeler and J. K. Thomas,J. Phys. Chem.1984, 88, 750-754.

195. Reactions of Radical Cation of Tetramethyl Benzidine withColloidal Clays. L. Kovar, R. DellaGuardia, and J. K.Thomas

196. Photochemistry of a Water Soluble Copolymer of Meth-acryclic Acid and 1-Pyrene Acrylic Acid. D. Chu andJ. K. Thomas,Macromolecules1984, 17, 2142-2147(1984).

Book “Chemistry of Excitation at Interfaces”. J. K.Thomas, American Chemical Society Monograph Series181 (March, 1984).

197. Photochemistry Reactions Carried Out Within a Silica GelMatrix. J. Wheeler and J. K. Thomas,J. Photochem.1985, 28, 285-295.

198. Photochemistry of Ru(II) and Mv2+ in Cellulose. B.Milosavljevic and J. K. Thomas,Macromolecules1984,17, 2244-2248.

199. Photochemistry of Ru(II) and Cu2+ in Cellulose. B.Milosavljevic and J. K. Thomas,J. Chem. Farad., I(1984).

200. Photophysical Studies of Pyrene in Micellar SodiumTaurocholate at High Salt Concentrations. S. Hashimotoand J. K. Thomas,J. Coll. Interface Sci.1984, 102,152-163.

201. Photochemical Behavior of Cetyltrimethylammonium Bro-mide Stabilized Colloidal Cadmium Sulfide: Effects ofSurface Charge on Electron Transfer Across the Colloid-Water Surface. J. Kuczynski and J. K. Thomas,Lang-muir 1985, 1, 158-161.

202. Photochemical Reactions in Microemulsions and AlliedSystems. S. Atik, J. Kuczynski, B. J. Milosavljevic, K.Chandrasekaran, and J. K. Thomas,Macro- and Micro-emulsions1985, 20, 303-324.

203. Photophysical Studies of a Copolymer of Acrylic Acidand 1-Pyreneacrylic Acid Adsorbed on Calcium Car-bonate. R. Harrop, P. A. Williams, and J. K. Thomas,J. Chem. Soc., Chem. Commun.1985, 1366, 280-282.

204. Photochemistry of Compounds Adsorbed into Cellulose.B. H. Milosalvjevic and J. K. Thomas,J. Chem. Soc.,Faraday Trans., I1985, 81, 735-744.

205. Photochemistry of Compounds Adsorbed into Cellulose.5. Solid-State Reduction of Methylviologen Photosen-sitized by Tris(2,2′-bipyridine)ruthenium(II). B. H.Milosavljevic and J. K. Thomas,J. Phys. Chem.1985,89, 1830-1835.

206. Effects of Nitrogen Mustard on Potassium TransportSystems and Membrane Structure of Ehrlich AscitesTumor Cells. H. Grunicke, W. Doppler, S. A. E. Finch,R. Greinert, K. Grunewald, J. Hofmann, K. Maly, A.Stier, F. Scheidl, and J. K. Thomas,AdVances in EnzymeRegulation,Pergamon Press, Vol. 23, pp 277-290,(1985).

207. Laser Photolysis Studies of Electron-Transfer ReactionsMicellar-Metal Ion Systems. J. K. Thomas and S.Hashimoto,J. Phys. Chem.1985, 89, 2771-2777.

208. Photophysical Properties of Cadmium Sulfide Depositedin Porous Vycor Glass. J. Kuczynski and J. K. Thomas,J. Phys. Chem.1985, 89, 2720-2722.

209. Fluorescence Study of Pyrene and Naphthalene in Cyclo-dextrin-Amphiphile Complex Systems. S. Hashimotoand J. K. Thomas,J. Am. Chem. Soc.1985, 106, 4655-4662.

210. Photophysical and Photochemical Properties of Pyrene-Doped TiO2 Particle Suspensions in Water. K. Chan-drasekaran and J. K. Thomas,J. Coll. Interface Sci.1985, 106, 532-537.

211. Photochemistry of Materials Adsorbed on Clay Systems.Effect of the Nature of the Adsorption on the KineticDescription of the Reactions. T. Nakamura and J. K.Thomas,Langmuir1985, 1, 568-573.

212. Picosecond Studies of Excited-State Formation in LiquidDiethylaniline. G. Beck and J. K. Thomas,J. Phys.Chem.1985, 89, 4062-4065.

213. Effect of Conformation of Poly(methacrylic acid) on thePhotophysical and Photochemical Processes of Tris(2,2′-bipyridine)ruthenium(II). D.-Y. Chu and J. K. Thomas,J. Phys. Chem.1985, 89, 4065-4070.

214. The Interaction of Alkylammonium Salts with SyntheticClays. A Fluorescence Laser Excitation Study. T.Nakamura and J. K. Thomas,J. Phys. Chem.1986, 90,641-644.

215. Photoinduced Charge Separation at Inorganic and OrganicInterfaces. D.-Y. Chu, R. Stramel, S. Hashimoto, T.Nakamura, J. Murtagh, J. Kuczynski, B. Milosavljevic,J. Wheeler, and J. K. Thomas,Chemical Reactions inOrganic and Inorganic Constrained Systems.R. Setton,Ed., D. Reidel Publishing Co., 237-252 (1986).

216. Photochemistry of Iron Oxide Colloids. R. D. Stramel andJ. K. Thomas,J. Coll. Interface Sci.1986, 110, 121-129.

217. Cadmium Sulfide of Small Dimensions Produced inInverted Micelles. P. Lianos and J. K. Thomas,Chem.Phys. Letts.1986, 125, 299-302.

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218. Photochemistry of Compounds in the Constrained MediumCellulose. 7. The Effect of Temperature on PhotoinducedElectron from Tris(2,2-bipyridine)ruthenium(II) to Me-thylviologen Solubilized in Cellophane. B. H. Milosav-ljevic and J. K. Thomas,J. Am. Chem. Soc.1986, 108,2513-2517.

219. Photochemistry of Methyl Viologen in Aqueous SolutionContaining Polymeric Carboxylic Acids. R. D. Strameland J. K. Thomas,J. Chem. Soc., Faraday Trans. 21986, 82, 799-809.

220. Effect of Cationic Surfactants on the ConformationalTransition and Poly(methacrylic acid). D.-Y. Chu andJ. K. Thomas,J. Am. Chem. Soc.1986, 108, 6270-6276.

221. Spectroscopic Investigations of Surfaces by Using Ami-nopyrene. P. Hite, R. Krasnansky, and J. K. Thomas,J.Phys. Chem.1986, 90, 5795-5799.

222. Cadmium Sulfide on Synthetic Clay. R. D. Stramel, T.Takamura, and J. K. Thomas,Chem. Phys. Lett.1986,130, 423-425.

223. Characterization of Surfaces by Excited States. J. K.Thomas,J. Phys. Chem.1987, 91, 267-276.

224. Formation of Surfactant Double Layers on Laponite ClayColloids. T. Nakamura and J. K. Thomas,Langmuir1987, 3, 234-239.

225. Photophysical Studies of Calcium Carbonate Colloids. R.D. Stramel, T. Nakamura, and J. K. Thomas,J. Coll.Interface Sci.1987, 117, 58-63.

226. Photochemistry in Organised and Constrained Media. J.K. Thomas and S. Hashimoto,NouV. J. Chim.1987, 11,145-149.

227. Small CdS Particles in Inverted Micelles. P. Lianos andJ. K. Thomas,J. Coll. Interface Sci.1987, 117, 505-512.

228. Long-Distance Electron Transfer from a Triplet ExcitedState. J. Murtagh and J. K. Thomas,Chem. Phys. Letts.1987, 139, 437-441.

229. Photophysical and Photochemical Studies on a PolymericIntramolecular Micellar System, PA- 18K2. D.-Y. Chuand J. K. Thomas,Macromolecules1987, 20, 2133-2138.

230. Primary Action of Ionizing Radiation on CondensedSystems. Chapter 2. J. K. Thomas and G. Beck;American Chemical Society Symposium Series 346,Polymers for High Technology Electronics and Photo-nics, 16-30 (1987).

231. Mobility and Reactivity in Colloidal Aggregates withMotion Restricted by Polymerization. J. Murtagh andJ. K. Thomas,Faraday Discuss. Chem. Soc.1986, 81,127-136.

232. Interaction of Cationic Species with Polyelectrolytes. D.-Y. Chu and J. K. Thomas,AdVances in Chemistry, ACSSymposium Series358, 32, 434-450 (1987).

233. New Absorption Band in the Mid-Infrared Spectra ofCd2+-Exchanged Zeolites. X. Liu and J. K. Thomas,Chem. Phys. Letts.1988, 144, 286-291.

234. Photochemistry of Compounds in the Constrained MediumCellulose- -Part 8. Long-Range Electron Transfer fromExcited Pyrene to Cu(II) Cation. H. Bitting, B. H.Milosavljevic, and J. K. Thomas,Radiat. Phys. Chem.1988, 32, 181-184.

235. Photophysical and Photochemical Properties of CdS withLimited Dimensions. R. D. Stramel, T. Nakamura, andJ. K. Thomas,J. Chem. Soc., Faraday Transfer, I1988,84, 1287-1300.

236. Solvent Effects on the Photophysical Properties of Pyrene-3-carboxylic acid. B. H. Milosavljevic and J. K. Thomas,J. Phys. Chem.1988, 92, 2997-3001.

237. Quenching of Excited (4-(1-Pyrenyl)butyl) trimethylam-monium Bromide on Synthetic Hectorites ContainingLattice Copper. J. Wheeler and J. K. Thomas,Langmuir1988, 4, 543-546.

238. Rate Constants for Reactions in Viscous Media: Correla-tion Between the Viscosity of the Solvent and the RateConstant of the Diffusion-Controlled Reactions. A. Oleaand J. K. Thomas,J. Am. Chem. Soc.1988, 110, 4494-4502.

239. Photophysical and Photochemical Processes on ClaySurfaces. J. K. Thomas,Acc. Chem. Res.1988, 21, 275-280.

240. Photophysical Studies of Molecular Mobility in PolymerFilms. 1. Oxygen Mobility in Polymer Films Monitoredby Quenching of the Triplet-Triplet Absorption ofBromopyrene. D.-Y. Chu and J. K. Thomas,Macro-molecules1988, 21, 2094-2100.

241. Photophysical Studies in Liquid Crystal Solutions andLiquid Crystal Foams. P. Liang and J. K. Thomas,J.Coll. and Interface Sci.1988, 124, 358-364.

242. Effect of Humidity and Temperature on PhotoinducedReactions in Cellulose. J. Murtagh and J. K. Thomas,Chem. Phys. Lett.1988, 148, 445-451.

243. Reactions of Exciplexes with Water Pools in HydrophobicMedia. K. Kikuchi and J. K. Thomas,Chem. Phys. Lett.1988, 148, 245-248.

244. Fluorescence Probing of the Interfaces of Solid CalciumCarbonate, Calcium Hydroxide, and Calcium Oxide withBenzene and Heptane. S. Pankasem and J. K. Thomas,J. Coll. Interface Sci.1988, 126, 231-238.

245. Formation and Photophysical Properties of CdS in Zeoliteswith Cages and Channels. X. Liu and J. K. Thomas,Langmuir1989, 5, 58-66.

246. Fluorescence Studies of the Conformational Changes ofPoly(methacrylic acid) with pH. A. F. Olea and J. K.Thomas,Macromolecules1989, 22, 1165-1169.

247. Laser Flash Photolysis Studies on Iodonium and SulfoniumSalts. M. Tilley, B. Pappas, S. P. Pappas, Y. Yagci, W.Schnabel, and J. K. Thomas,J. Imaging Science1989,22, 62-64.

248. Effect of Interlayer Spacing on Intercalation of CdS inClays. X. Liu and J. K. Thomas,J. Coll. Interface Sci.1989, 129, 476-482.

249. Synthesis and Characterization of Polystyrene LatexParticles. M. R. Ferrick, J. Murtagh, and J. K. Thomas,Macromolecules1989, 22, 1515-1517.

250. Photophysical Properties of Pyrene in Zeolites. X. Liu,K.-K. Iu, and J. K. Thomas,J. Phys. Chem.1989, 93,4120-4128.

251. Photochemistry in Polymer Films. D. Y. Chu, B. Milosav-ljevic, and J. K. Thomas,Proceedings of Photochemistryfor Imaging Symposium143-158 (1988).

252. Photophysical Studies of Molecular Mobility in PolymerFilms and Bulk Polymers. 2. Quenching of PyreneFluorescence by Phthalic Anhydride in Bulk Poly(dim-ethylsiloxanes). D. Y. Chu and J. K. Thomas,J. Phys.Chem.1989, 93, 6250-6257.

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253. Photophysical Properties of Pyrene in Zeolite. Effects ofCoadsorbed Water. K.-K. Iu and J. K. Thomas,Lang-muir 1990, 6, 471-478.

254. A Novel Micellar Synthesis and Photophysical Charac-terization of Water-Soluble Acrylamide-Styrene BlockCopolymers. K. C. Dowling and J. K. Thomas,Mac-romolecules1990, 23, 1049-1064.

255. Photophysical Studies of Molecular Mobility in PolymerFilms and Bulk Polymers. 3. Dynamic Excimer Forma-tion of Pyrene in Bulk PDMS. D. Y. Chu and J. K.Thomas,Macromolecules1990, 23, 2217-2222.

256. Quenching of Singlet Molecular Oxygen (1∆gO2) in SilicaGel/Cyclohexane Heterogeneous Systems. A DirectTime-Resolved Study. K.-K. Iu and J. K. Thomas,J.Am. Chem. Soc.1990, 112, 3319-3325.

257. Photophysical and Photochemical Studies of RutheniumTris (bipyridine) on Hectorite. V. G. Kuykendall and J.K. Thomas,J. Phys. Chem.1990, 94, 4224-4230.

258. Gaussian Approximation to the Unique HeterogeneousLangmuir-Hinshelwood Type Fluorescence Quenchingat the Silica Gel Gas/Solid Interface: Pyrene and 9,10-Diphenylanthracene Singlet Quenching by Oxygen. R.Krasnansky, K. Koike, and J. K. Thomas,J. Phys. Chem.1990, 94, 4521-4528.

259. Photophysical and Photochemical Studies of Pillard Clays.V. G. Kuykendall and J. K. Thomas,Langmuir1990,6, 1346-1350.

260. Photophysical Investigation of the Degree of Dispersionof Aqueous Colloidal Clay. V. G. Kuykendall and J. K.Thomas,Langmuir1990, 6, 1350-1356.

261. Single-Photon Ionization of Pyrene and Anthracene GivingTrapped Electrons in Alkali- Metal-Cation-ExchangedZeolites X and Y. A Direct Time-Resolved DiffuseReflectance Study. K.-K. Iu and J. K. Thomas,J. Phys.Chem.1991, 95, 506-509.

262. The Reaction of Biphenyls in the Upper Triplet States inMicellar Systems. S. H. Hashimoto and J. K. Thomas,J. Photochem. and Photobio. A: Chemistry1991, 55,377-386.

263. Characterisation of Polymers by Excited States. D.-Y. Chuand J. K. Thomas,Polymers, CRC Press1991, 3, 49-102 (1991).

264. Photophysical Characterization of Polyelectrolytes in theForm of Polymerized Micelles from an Ionic Surfactantwith a Terminal Double Bond. D.-Y. Chu and J. K.Thomas,Macromolecules1991, 24, 2212-2216.

265. Photophysical Characterization of Water-Soluble Sytrene-Grafted Poly(acrylamide) Copolymers. K. C. Dowlingand J. K. Thomas,Macromolecules1991, 24, 2341-2347.

266. Diffusional vs Non-diffusional Fluorescence Quenchingat the Silica Gel Liquid-solid and Vacuum-solid Inter-faces: Pyrene Fluorescence Quenching by Oxygen,Nitromethane and Nitropropionic Acid. R. Krasnanskyand J. K. Thomas,J. Photochem. and Photobio. A.:Chemistry1991, 57, 81-96.

267. Effect of Anionic Molecular Assembly Environments onFluorescence Quenching by Electron Transfer. M.Wolszczak and J. K. Thomas,Radiat. Phys. Chem.1991,38, 155-164.

268. Characterization of the Solution Properties of a 1.7%Sulfonated Polystyrene Ionomer by Fluorescence Prob-ing. K. C. Dowling and J. K. Thomas,Macromolecules1991, 24, 4123-4130.

269. Dynamics of Ion Exchange in Partially Solvonated Poly-styrene Ionomer Solutions As Monitored by Stopped-Flow Fluorescence Measurements. K. C. Dowling andJ. K. Thomas,Macromolecules1991, 24, 4131-4137.

270. Colloidal Semiconductors. J. K. Thomas, D. M. Bloor,and E. Wyn-Jones, Eds.The Structure, Dynamics andEquilibrium Properties of Colloidal Systems(Bookchapter 11) NATO Meeting on Colloids, Kluwer Aca-demic Publishers, Netherlands (1990).

271. Photochemistry of 1-Pyrenyldiazomethane. S. Silva, A.F. Olea, and J. K. Thomas,Photochemistry and Pho-tobiology1991, 54, 511-516.

272. Reflectance Spectroscopic Studies of the Cation Radicaland the Triplet of Pyrene on Alumina. S. Pankasem andJ. K. Thomas,J. Phys. Chem.1991, 95, 6990-6996.

273. Photochemistry and Photophysics of Materials in Zeolites.K. K. Iu, X. Liu, and J. K. Thomas,Mat. Res. Soc.Symposium Proceedings233, 119-132 (1991).

274. Pyrene, Pyrene Derivatives, and 1,1′-Binaphthyl as Lu-minescent Probes for Photophysical Studies of AluminaSurfaces. S. Pankasem and J. K. Thomas,J. Phys. Chem.1991, 95, 7385-7393.

275. Photoinduced Ionization of Arenes on Laponite Clay: ASingle-Photon Process. K.-K. Iu, X. Liu, and J. K.Thomas,Chem. Phys. Letts.1991, 186, 198-203.

276. Pulse Radiolysis of Polystyrene Films. Chapter 4. S. P.Mezyk, S. Yamamura, and J. K. Thomas, AmericanChemical Society Symposium Series 475,RadiationEffects on Polymers, 53-71, (1991).

277. Study of Surface Properties of Clay Laponite Using Pyreneas a Photophysical Probe Molecule. Z. Liu and J. K.Thomas,Langmuir1991, 7, 2808-2816.

278. Visible and Near-lR Fluorescence of Aromatic RadicalCations in Micellar Solutions, BF3-trifluoroacetic Acid,γ-Al2O3 and SiO2-Al2O3. S. P. Pankasem, K.-K. Iu,and J. K. Thomas,J. Photochem. Photobiol. A: Chem.1991, 62, 53-63.

279. Photoproduction of Gold Colloids and Films. R. Krasn-ansky, S. Yamamura, J. K. Thomas, and R. Dellaguardia,Langmuir1991, 7, 2881-2886.

280. Electron-transfer Reactions of Aromatic Radical Ions withNucleophilic Molecules. K. Kioki and J. K. Thomas,J.Chem. Soc. Farad. I1992, 88, 195-200.

281. Photophysical and Photochemical Studies of N,N,N′,N′-Tetramethylbenzidine andγ-Alumina. S. Pankasemand J. K. Thomas,Langmuir1992, 501-507.

282. Studies of Surface Properties of Clay Laponite UsingPyrene and a Photophysical Probe Molecule. 2. Photo-induced Electron Transfer. X. Liu, K.-K. Iu, and J. K.Thomas,Langmuir1992, 8, 539-545.

283. Radiation-Induced Processes in Microheterogeneous Me-dia. J. K. Thomas,Radiation Research: A Twentieth-Century PerspectiVe,Volume II: Congress Proceedings,Academic Press, 110-114 (1992).

284. Dynamics of Electron Attachment of AOT/H2O. G.Bakale, G. Beck, and J. K. Thomas,J. Phys. Chem.1992, 96, 2328-2334.

285. Laser Flash Photolysis of Arylsulfonium Salts: Studiesof Photoproduced Proton Kinetics and Mechanism inPolar Solvents by a pH-Jump Method. K.-K. Iu, J.Kuczynski, S. J. Fuerniss, and J. K. Thomas,J. Am.Chem. Soc.1992, 114, 4871-4878.

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286. Ionic Clusters inγ-irradiated Zeolites and Their Trans-formation on Increasing Temperature. X. Liu and J. K.Thomas,Chem. Phys. Letts.1992, 192, 555-559.

287. Photophysical Properties of Pyrene in Zeolites 3. A DirectTime-resolved Diffuse Reflectance Study in AlkaliCation-exchanged Zeolites X and Y. K.-K. Iu and J. K.Thomas.Colloids and Surfaces1992, 63, 39-48.

288. Temperature Effects on Formation and Transformation ofAlkali-Metal Ionic Clusters inγ-Irradiated Zeolites. X.Liu and J. K. Thomas,Langmuir1992, 8, 1750-1756.

289. Encapsulation of TiO2 in Zeolite Y. X. Liu, K.-K. Iu, andJ. K. Thomas,Chem. Phys. Letts.1992, 195, 163-168.

290. Photochemical Reactions of Pyrene on Surfaces ofγ-Alumina and Silica-Alumina. Y. Mao and J. K.Thomas,Langmuir1992, 8, 2501-2508.

291. Spectroscopic Determination of Refractive Index andDielectric Constant at Interfaces, Using PhotophysicalProbe Molecules. R. J. Kavanagh, K.-K. Iu, and J. K.Thomas,Langmuir1992, 8, 3008-3013.

292. Photochemical Reactions of Biphenyl and its ChlorinatedDerivatives on the Surfaces ofγ-Alumina and Silica-Alumina. Y. Mao and J. K. Thomas,J. Chem. Soc.Faraday Transac., I1992, 88, 3079-3086.

293. Physical Aspects of Photochemistry and Radiation Chem-istry Adsorbed on SiO2, γ-Al2O3, Zeolites and Clays.J. K. Thomas,Chem. ReV. 1993, 93, 301-320 (1993).

294. Photophysical Properties of Pyrene in Zeolites. Observationof Pyrene Anion Radicals in Zeolites X and Y. X. Liu,K.-K. Iu, and J. K. Thomas,Chem. Phys. Lett.1993,204, 163-167.

295. Quenching of Singlet Molecular Oxygen (1∆gO2) in SilicaGel-solvent Heterogeneous System II. A Direct Time-resolved Study. K.-K. Iu and J. K. Thomas,J. Photo-chem. and Photobiol., A.: Chem.1993, 71, 55-60.

296. Study of Surface Properties of Zeolite Faujasite UsingArenes and Photophysical Probe Molecules: Adsorptionand Electron-Transfer. X. Liu and J. K. Thomas,Langmuir1993, 9, 727-732.

297. Surface Complexes as Precursors of Photoinduced RadicalCations of Biphenyl and Subsequent Hydroxylation onLaponite. Y. Mao, G. Zhang, and J. K. Thomas,Langmuir1993, 9, 1299-1305.

298. Photoinduced Oxidative Reactions of Dioxin and ItsChlorinated Derivative on Laponite Surfaces. Y. Mao,S. Pankasem, and J. K. Thomas,Langmuir 1993, 9,1504-1512.

299. Preparation, Characterization and Photoreactivity of Ti-tanium(iv) Oxide Encapsulated in Zeolites. X. Liu, K.-K. Iu, and J. K.Thomas,J. Chem. Soc., Faraday Trans.1993, 82, 1861-1865.

300. Movement of Small Molecules on a Silica Surface: APhotophysical and Photochemical Study. M. A. T. Marroand J. K. Thomas,J. Photochem. and Photobiol., A.:Chem.1993, 72, 251-259.

301. Spectroscopic Studies of Electron Trapping by SodiumCationic Clusters in Zeolites. K.-K. Iu, X. Liu, and J.K. Thomas,J. Phys. Chem.1993, 27, 8165-8170.

302. Photoinduced Electron Transfer and Subsequent ChemicalReactions of Adsorbed Thianthrene on Clay Surfaces.Y. Mao and J. K. Thomas,J. Org. Chem.1993, 58,6641-6649 (1993).

303. Photoinduced Reactions on Clay and Model SystemsChapter 14. X. Liu, K.-K. Iu, Y. Mao, and J. KerryThomas, inAquatic and Surface Chemistry, G. R. Helz,R. G. Zepp, and D. G. Crosby, Eds., Lewis Publishers,Boca Raton, FL 187-195 (1994).

304. Chemical Reactions of Pyrene and Its Chlorinated Deriva-tive on Silica-Alumina Surfaces Induced by IonizingRadiation. Y. Mao, K.-K. Iu, and J. K. Thomas,Langmuir1994, 10, 709-716.

305. Photoionization of Naphthalene, trans-stilbene and An-thracene Adsorbed on the External and Internal Surfacesof Zeolites. K.-K. Iu, X. Liu, and J. K. Thomas,J.Photochem. Photobiol., A: Chem.1994, 79, 103-107.

306. Surveying the Silica Gel Surface with Excited States. R.Krasnansky and J. K. Thomas, Chapter 11 in AmericanChemical Society Symposium Series 234,The ColloidChemistry of Silica, Horacio E. Bergna, Ed., DuPont,223-244, (1990) published in 1994.

307. Direct Ionization of Zeolites by Far-UV Light FollowingElectron Trapping by Charge Balancing Cation Clusters.X. Liu, K.-K. Iu, and J. K. Thomas,Chem. Phys. Letts.1994, 224, 31-37.

308. Photochemistry and Photodegradation of Polycarbonate.S. Pankasem, J. Kuczynski, and J. K. Thomas,Macro-molecules1994, 27, 3773-3781.

309. Photophysical Properties of Pyrene in Zeolites: A DirectTime-Resolved Diffuse Reflectance Study of PyreneAnion Radicals in Zeolites X and Y. X. Liu, K.-K. Iu,and J. K. Thomas,J. Phys. Chem.1994, 98, 7877-7884.

310. Reactions of Electrons Generated in Photolysis of Pyreneon Silica Gel Surface. Y. Mao and J. K. Thomas,Chem.Phys. Letts.1994, 226, 127-131.

311. Photophysical Studies of Poly(N-isopropylacrylamide)Microgel Structures. S. Pankasem, J. K. Thomas, M. J.Snowden, and B. Vincent,Langmuir1994, 10, 3023-3026.

312. Pyrene Radical Formation in Pulse Radiolysis of LiquidMethanol. G. Zhang and J. K. Thomas,J. Phys. Chem.1994, 98, 11714-11718.

313. Spectroscopic Studies of Protonated Aromatic Species andRadical Cations in H+-Zeolites. X. Liu, K.-K. Iu, J. K.Thomas, H. He, and J. Klinowski,J. Am. Chem. Soc.1994, 116, 11811-11818.

314. Photophysical Properties of Pyrene in Zeolites: Adsorptionand Distribution of Pyrene Molecules on Surfaces ofZeolite L and Mordenite. X. Liu and J. K. Thomas,Chem. Mat.1994, 6, 2303-2308.

315. Electron Trapping by Sodium Cation Clusters in Zeo-lites: Effects of Si/Al Ratio and Foreign Species. X.Liu, K.-K. Kong, and J. K. Thomas,J. Phys. Chem.1994, 98, 13720-13728.

316. Aminopyrene as a Monitor of Vicinal and Geminal OHGroups on Silica. R. Krasnansky and J. K. Thomas,Langmuir1994, 10, 4551-4553.

317. Chemical Reactions of Molecular Oxygen in Surface-Mediated Photolysis of Aromatic Compounds on Silica-Based Surfaces. Y. Mao and J. K. Thomas,J. Phys.Chem.1995, 99, 2048-2056.

318. Time-resolved Diffuse Reflectance of Electron Trappingby Alkali-metal Cation Clusters in Zeolites and Claysfollowing Far-UV Excitation. X. Liu and J. K. Thomas,J. Chem. Soc. Faraday Trans.1995, 91(4), 759-765.

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319. Formation of Methylviologan Radical Monopositive Cat-ions and Ensuing Reactions with Polychloroalkanes onSilica Gel Surfaces. Y. Mao, N. E. Breen, and J. K.Thomas,J. Phys. Chem.1995, 99, 9909-9917.

320. Spectroscopic Studies of Electron Trapping in Zeolites:Cation Cluster Trapped Electrons and Hydrated Elec-trons. X. Liu, G. Zhang, and J. K. Thomas,J. Phys.Chem.1995, 99, 10024-10034.

321. Photophysical Study of Thin Films of Polystyrene andPoly(methyl methacrylate). E. H. Ellison and J. K.Thomas, Chapter 24 in American Chemical SocietySymposium Series #598,Multidimensional Spectroscopyof Polymer Vibrational, NMR, and Fluorescence Tech-niques, Marek, W. Urban and Theodore Provder, Eds.,at the 208th National Meeting of Am. Chem. Soc.Washington, D.C. 8/21-25 (1994) pp 410-424 (1995).

322. Transport of Singlet Excitation in Solid Aromatic Poly-mers. G. Zhang and J. K. Thomas,J. Phys. Chem.1995,99, 11203-11205.

323. Charge Transfer and Charge Trapping in Zeolites andSimilar Media. X. Liu, Y. Mao, S. A. Ruetten, J. K.Thomas,Solar Energy Materials and Solar Cells1995,38, 199-219.

324. Radiation-Induced Energy and Charge Transport in Poly-styrene, Laser Photolysis and Pulse Radiolysis Com-parative Study. G. Zhang and J. K. Thomas, Chapter 3in American Chemical Society Symposium Series #620,Irradiation of Polymers (Fundamentals and Technolog-ical Applications)Roger L. Clough and Shalaby W.Shalaby, Eds., at the 208th National Meeting of Am.Chem. Soc. Washington, D.C. 8/21-26 (1994) pp 28-54 (1996).

325. Photoionization in Polymer Films. G. Zhang and J. K.Thomas, Chapter 4 in American Chemical SocietySvmposium Series 620,Irradiation of Polymers (Fun-damentals and Technological Applications)Roger L.Clough and Shalaby W. Shalaby, Eds., at the 208thNational Meeting of Am. Chem. Soc. Washington, D.C.8/21-26 (1994), pp 55-73 (1996).

326. Photophysical Studies of Ultrathin Films: Characterizationof PS and PMMA on Fused Quartz by FluorescenceSpectroscopy of Pryeme and (4-(1-Pyrene)butyl)trim-ethylammonium Bromide. E. H. Ellison and J. K.Thomas,Langmuir1996, 12, 1870-1878.

327. Materials Aspects in Current Opinion (Edited). J. K.Thomas and Stephen Mann, inColloid Interface ScienceJournal, Vol. 1, No. 2, Eric W. Kaler and Brian H.Robinson, Editors of Journal April1996.

328. Materials Aspects (Editorial overview). J. Kerry Thomasand Stephen Mann, Materials Aspects inCurrentOpinion in Colloid Interface ScienceJournal Vol. l, No.2, April 1996.

329. Energy Transfer via Ionic Processes in Polymer FilmsIrradiated by 0.4 MeV Electrons. G. Zhang and J. K.Thomas,J. Phys. Chem.1996, 100, 11438-11455.

330. Pulse Radiolysis of Vinyl Monomers, in the Pulse Stateand with Added Pyrene. S. Pankasem, R. Rosenau-Eichin, J. K. Thomas, and Douglas Weiss,Rad. Phys.Chem.1996, 47, No. 6, 827-833.

331. Synthesis of microporous titanosilicates ETS-10 and ETS-4using solid TiO2 as the source of titanium. XinshengLiu and J. Kerry Thomas,Chem. Commun.1996, 1435-1436 (1996).

332. Spectroscopic Studies of Electron and Hole Trapping inZeolites: Formation of Hydrated Electrons and Hy-droxyl Radicals. Xinshing Liu, Guohong Zhang, and J.Kerry Thomas,J. Phys. Chem. B1997, 101, 2182-2194.

333. Current Opinion in Colloid and Interface Science. S. Mannand J. Kerry Thomas, (edited theMaterials Aspectschapters on pages 163, 165, 171, 177, 188, 192, and200), April issue 1997.

334. Materials aspects (Editorial overview). S. Mann and J.Kerry Thomas,Current Opinion in Colloid and InterfaceScience(E. W. Kaler and B. H. Robinson, Eds., Vol. 2,No. 2, April 1997).

335. Surface Chemistry Induced by High Energy Radiation inSilica of Small Particle Structures. G. Zhang, Y. Mao,and J. Kerry Thomas,J. Phys. Chem.1997, 101, 7100-7113.

336. Photoinduced Charge-Transfer Reaction between Pyreneand N,N′-Dimethylaniline on Silica Gel Surfaces. G.Zhang, J. Kerry Thomas, A. Eremenko, T. Kikteva, andF. Wilkinson,J. Phys. Chem.1997, 101, 8569-8577.

337. Fluorescence and Triplet Quantum Yields of Arenes onSurfaces. S. A. Ruetten and J. Kerry Thomas,J. Phys.Chem. B1998, 102, 598-606.

338. Photoinduced Reactions in Porous Systems: Reactions atthe Solid-Liquid Interface. R. J. Kavanagh and J. KerryThomas,Langmuir1998, 14, 352-362.

339. Radiation Induced Physical and Chemical Processes inZeolite Materials. G. Zhang, X. Liu, and J. K. Thomas,Radiat. Phys. Chem.1998, 51, 135-152.

340. Spectroscopic Investigation of Photoinduced Charge Sepa-ration and Recombination in Solid Polymers. G. Zhangand J. K. Thomas,J. Phys. Chem. A.1998, 102, 5465-5475.

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