References
- Bielski B.H.J. Reevaluation of the spectral and kinetic properties of the HO2 and O2- free radicals. Photochemistry and Photobiology 1978; 28: 645–649
- Buxton G.V. Radiation chemistry of the liquid state: (1) Water and homogeneous aqueous solutions. Radiation Chemistry. Principles and Practice, M.A.J. Farhataziz, Rodgers. VCH Publishers, New York 1987; 321–349
- Buxton G.V., Wood N.D. Effect of temperature and scavenging power on the sum of G(eeq-) + G(H) + G(OH) in the range 20–200°C—a pulse radiolysis study. Radiation Physics and Chemistry 1989; 34: 699–704
- Buxton G.V., Wood N.D., Dyster S. Ionisation constants of ·OH and HO2· in aqueous solution up to 200°C. A pulse radiolysis study. Journal of the Chemical Society, Faraday Transactions I 1988; 84: 1113–1121
- Buxton G.V., Salmon G.A., Wood N.D. A pulse radiolysis study of the chemistry of oxysulphur radicals in aqueous solution. Physico-Chemical Behaviour of Atmospheric Pollutants, G. Restilli, G. Angeletti. Kluwer, Dordrecht 1990; 245–250
- Cercek B. Activation energies for reactions of the hydrated electron. Nature 1969; 223: 491–492
- Chameides W.L., Davis D.D. The free radical chemistry of cloud droplets and its influence on the composition of rain. Journal of Geophysical Research 1982; 87: 4863–4877
- Christensen H., Sehested K. The hydrated electron and its reactions at high temperatures. Journal of Physical Chemistry 1986; 90: 186–190
- Christensen H., Sehested K. HO2 and O2· radicals at elevated temperatures. Journal of Physical Chemistry 1988; 92: 3007–3011
- Elliot A.J., Sopchyschyn F.C. The radiolysis at room temperature and 118°C of aqueous solutions containing sodium nitrate and either sodium formate or 2-propanol. Canadian Journal of Chemistry 1983; 61: 1578–1582
- Elliot A.J., McCracken D.R., Buxton G.V., Wood N.D. Estimation of rate constants for near-diffusion-controlled reactions in water at high temperatures. Journal of the Chemical Society, Faraday Transactions 1990a; 86: 1539–1548
- Elliot A.J., Chenier M.P., Ouellette D. G-values for gamma-irradiated water as a function of temperature. Canadian Journal of Chemistry 1990b; 68: 712–719
- Hayon E., Treinin A., Wilf J. Electronic spectra, photochemistry and autoxidation mechanisms of the sulfite-bisulfite-pyrosulfite systems. The SO2-, SO3-, SO4- and SO5- radicals. Journal of the American Chemical Society 1972; 94: 47–57
- Huie R.E., Clifton C.L., Alstein N. A pulse radiolysis and flash photolysis study of the radicals SO2-, SO3-, SO4- and SO5-. Radiation Physics and Chemistry 1989; 33: 293–297
- Jha K.N., Ryan T.G., Freeman G.R. Radiolysis of H2O and D2O between 0 and 300°C. Journal of Physical Chemistry 1975; 79: 868–870
- Noyes R.M. Effects of diffusion rates on chemical kinetics. Progress in Reaction Kinetics, G. Porter, B. Stevens. Pergamon Press, London 1961; 1: 129–160
- Rabani J., Matheson M.S. Pulse radiolytic determination of pK for hydroxyl ionic dissociation in water. Journal of the American Chemical Society 1964; 86: 3175–3176
- Rist R. PhD thesis. University of Nottingham. 1983
- Shiraishi H., Katsumura Y., Hiroishi D., Ishigure K., Washio M. Pulse radiolysis study on the yield of the hydrated electron at elevated temperatures. Journal of Physical Chemistry 1988; 92: 3011–3017
- Shiraishi H., Buxton G.V., Wood N.D. Temperature dependence of the absorption spectrum of the methyl viologen cation radical and use of methyl viologen as a scavenger for estimating yields of the primary radicals in the radiolysis of high-temperature water. Radiation Physics and Chemistry 1989; 33: 519–522
- Wardman P. Radiation chemistry: basic, strategic or tactical science?. International Journal of Radiation Biology 1989; 55: 175–190
- Weeks J.L., Rabani J. The pulse radiolysis of deaerated aqueous carbonate solutions. I. Transient optical spectrum and mechanism. II. pK for OH radicals. Journal of Physical Chemistry 1966; 70: 2100–2106