TY - JOUR
T1 - The effect of transition metal ions on the yield of "residual hydrogen" in neutral radiolysis solutions
AU - Anbar, M.
AU - Meyerstein, D.
PY - 1964
Y1 - 1964
N2 - 2-d-2-Propanol has been irradiated in dilute neutral aqueous solutions in the presence of acetone and the yield of HD determined. HD is formed by abstraction of the α-hydrogen of 2-propanol by the "residual hydrogen." In acetone-free acid solutions HD is formed by abstraction of the α-hydrogen of 2-propanol by hydrogen atoms. Ca+2 and Ba+2 ions have no effect on the yield of HD in either unbuffered or acidified solutions. On the other hand, in unbuffered solutions, certain transition metal ions diminish the yield of HD in the following order: Ni+2, Cd+2, Co+2, Zn+2. The same ions were examined in acid solution, where hydrogen atoms are present, and were found to have no effect on the yield of HD. In other words, these metal ions, which were found not to react with hydrogen atoms, do react with the "residual hydrogen" or with its precursor. It is suggested that the "residual hydrogen" or its precursor is actually an excited water molecular, H2O*, which reacts with these metal ions as a reductant in analogy to their reaction with hydrated electrons.
AB - 2-d-2-Propanol has been irradiated in dilute neutral aqueous solutions in the presence of acetone and the yield of HD determined. HD is formed by abstraction of the α-hydrogen of 2-propanol by the "residual hydrogen." In acetone-free acid solutions HD is formed by abstraction of the α-hydrogen of 2-propanol by hydrogen atoms. Ca+2 and Ba+2 ions have no effect on the yield of HD in either unbuffered or acidified solutions. On the other hand, in unbuffered solutions, certain transition metal ions diminish the yield of HD in the following order: Ni+2, Cd+2, Co+2, Zn+2. The same ions were examined in acid solution, where hydrogen atoms are present, and were found to have no effect on the yield of HD. In other words, these metal ions, which were found not to react with hydrogen atoms, do react with the "residual hydrogen" or with its precursor. It is suggested that the "residual hydrogen" or its precursor is actually an excited water molecular, H2O*, which reacts with these metal ions as a reductant in analogy to their reaction with hydrated electrons.
UR - http://www.scopus.com/inward/record.url?scp=0013177026&partnerID=8YFLogxK
U2 - 10.1021/j100789a006
DO - 10.1021/j100789a006
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AN - SCOPUS:0013177026
SN - 0022-3654
VL - 68
SP - 1713
EP - 1716
JO - Journal of Physical Chemistry
JF - Journal of Physical Chemistry
IS - 7
ER -