TY - JOUR
T1 - H/D isotope effects in the formation of hydrogen from the combination of two radicals in aqueous solutions
AU - Anbar, M.
AU - Meyerstein, D.
PY - 1966
Y1 - 1966
N2 - The H/D isotope effects of the reactions eaq-+e aq-(a), eaq-+H (b) and H+H (c), were determined using high-intensity pulse radiolysis. At room temperature in mixtures of H2O+D2O = 1:1, the following H/D isotope effects were observed: αa = 4.7±0.2, αb = 1.5-1.9±0.3 (depending on the pH) and αc = 2.6-3.5±0.2 (depending on the pH). The isotope effect of the "molecular" hydrogen formed in the radiolysis of water, αM = 2.2±0.1, was found to be independent of pH. In view of the isotope effects, reaction (a) was interpreted in terms of the formation of a (eaq-) 2 centre as an intermediate, and reaction (b) as involving the formation of a hydride ion. The results indicate that the "molecular" and the "residual" hydrogen, produced in neutral radiolyzed aqueous solution, are formed via reactions different from those assumed in the diffusion model for the radiolysis of water. Most probably these species are formed from excited water molecules. The incompatability of the results with the diffusion model makes a revision of the latter most desirable.
AB - The H/D isotope effects of the reactions eaq-+e aq-(a), eaq-+H (b) and H+H (c), were determined using high-intensity pulse radiolysis. At room temperature in mixtures of H2O+D2O = 1:1, the following H/D isotope effects were observed: αa = 4.7±0.2, αb = 1.5-1.9±0.3 (depending on the pH) and αc = 2.6-3.5±0.2 (depending on the pH). The isotope effect of the "molecular" hydrogen formed in the radiolysis of water, αM = 2.2±0.1, was found to be independent of pH. In view of the isotope effects, reaction (a) was interpreted in terms of the formation of a (eaq-) 2 centre as an intermediate, and reaction (b) as involving the formation of a hydride ion. The results indicate that the "molecular" and the "residual" hydrogen, produced in neutral radiolyzed aqueous solution, are formed via reactions different from those assumed in the diffusion model for the radiolysis of water. Most probably these species are formed from excited water molecules. The incompatability of the results with the diffusion model makes a revision of the latter most desirable.
UR - http://www.scopus.com/inward/record.url?scp=0039732102&partnerID=8YFLogxK
U2 - 10.1039/tf9666202121
DO - 10.1039/tf9666202121
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AN - SCOPUS:0039732102
SN - 0014-7672
VL - 62
SP - 2121
EP - 2131
JO - Transactions of the Faraday Society
JF - Transactions of the Faraday Society
ER -