The Journal of Physical Chemistry

Electron transfer from indoles, phenol, and sulfite (SO32-) to chlorine dioxide (ClO2.)

G Merenyi, J Lind, X Shen

Index: Merenyi, Gabor; Lind, Johan; Shen, Xinhua Journal of Physical Chemistry, 1988 , vol. 92, # 1 p. 134 - 137

Full Text: HTML

Citation Number: 98

Abstract

Conclusions It was not possible to measure the rate of hydrogen abstraction from either allene or 1, 3-butadiene because of both the larger rate of the addition reaction and the weaker decrease in the rate of the addition reaction in comparison with the reaction of ethylene. However, an upper limit of about twice the predicted rate for H abstraction from ethylene can be inferred from these data. The reactions of the three olefins ethylene, 1, 3- ...

Related Articles:

Electron affinity of chlorine dioxide

[Babcock, L. M.; Pentecost, T.; Koppenol, W. H. Journal of Physical Chemistry, 1989 , vol. 93, # 25 p. 8126 - 8127]

Kinetics and mechanism of catalytic decomposition and oxidation of chlorine dioxide by the hypochlorite ion

[Csordas; Bubnis; Fabian; Gordon Inorganic Chemistry, 2001 , vol. 40, # 8 p. 1833 - 1836]

The kinetics and mechanism of the chlorine dioxide-iodide ion reaction

[Fabian, Istvan; Gordon, Gilbert Inorganic Chemistry, 1997 , vol. 36, # 12 p. 2494 - 2497]

Chlorine dioxide reduction by aqueous iron (II) through outer-sphere and inner-sphere electron-transfer pathways

[Wang, Lu; Odeh, Ihab N.; Margerum, Dale W. Inorganic Chemistry, 2004 , vol. 43, # 23 p. 7545 - 7551]

New pathways for chlorine dioxide decomposition in basic solution

[Odeh, Ihab N.; Francisco, Joseph S.; Margerum, Dale W. Inorganic Chemistry, 2002 , vol. 41, # 24 p. 6500 - 6506]

More Articles...