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Full Screen- Title
- DEDICATION
- CERTIFICATE
- DECLARATION
- ACKNOWLEDGEMENT
- CONTENTS
- 1. Introduction and Objectives
- 1.1 General
- 1.2 Interaction of Ionizing Radiation with Matter
- 1.3 Radiation Chemical Techniques
- 1.4 Radiation Chemistry of Water and Aqueous Solutions
- 1.5 Radiation Chemical Studies of DeoxyribonucIeic Acid (DNA)
- 1.6. Nucleo bases, Nucleosides and NucIeotides: Model Systems for Radiation Damage of DNA
- 1.7 Objectives
- References
- 2. Experimental
- 2.1 Materials
- 2.2 Preparation of Solutions
- 2.3 Pulse Radiolysis
- 2.4 Steady-State Radiolysis
- 2.5 Instrumental Analyses
- References
- 3 Kinetic and Spectral Investigation of the Electron and Hydrogen Adducts of Dihydroxy and Dimethyl Substituted Pyrimidines: A Pulse Rsdiolysis and Product Analysis Study
- ABSTRACT
- 3.1 Acid Base Properties
- 3.2. Reactions of Hydrated Electron
- 3.3 Reactions of H Atom: Kinetics and Spectral Studies
- 3.4 Steady-state Radiolysis
- 3.5 Conclusion
- References
- 4. Reactions of Hydroxyl Radical (OH) with Hydroxy and Methyl Substituted Pyrmidine: Dehydration Reactions of Their OH-Adducts and End-Product Analysis
- ABSTRACT
- 4.1 Pulse Radiolysis
- 4.2 Steady-State Radiolysis
- 4.3 Conclusion
- References
- 5. Reaction of Oxide Radical Ion (0-) and Sulphate Radical Anion (SO4-) with Hydroxy and Methyl Substituted Pyrimidine: A Pulse Radiolysis Study
- ABSTRACT
- 5.1 Reactions of Oxide Radical Ion (0-)
- 5.2 Reactions of SuIphate Radical Anion (SO4-)
- References