TY - JOUR
T1 - Photochemically induced isotopic exchange between iodobenzene and molecular iodine
AU - Levy, A.
AU - Meyerstein, D.
AU - Ottolenghi, M.
PY - 1971
Y1 - 1971
N2 - The photochemical isotopic exchange between iodobenzene and radioactive molecular iodine (I131I) was studied in methylcyclohexane solutions. The limiting exchange yields, φEX0, measured at several excitation wave-lengths in the uv range were found to be identical with the corresponding deiodinatipn limiting yields, φDE0. This observation and a study of the effects of dissolved oxygen and iodine concentrations suggest that the exchange is initiated by photocleavage of iodobenzene to phenyl (Ph-) and iodine radicals, with O2 and I2 competing in the scavenging of Ph· (kI2+Ph./kO2+Ph.= 2.1 ± 0.5). The photocleavage of iodobenzene was found to be wavelength dependent in the near-uv range (e.g., 334 and 365 nm), where part of the absorption leads directly to the iodobenzene triplet. It is suggested that dissociation takes place from the lowest excited singlet, but practically not from the triplet state. It is shown that iodine atoms, produced by selective excitation in the visible range, do not exchange with iodobenzene. Neither does excitation of the charge-transfer (CT) complex between iodobenzene and iodine lead to exchange or deiodination.
AB - The photochemical isotopic exchange between iodobenzene and radioactive molecular iodine (I131I) was studied in methylcyclohexane solutions. The limiting exchange yields, φEX0, measured at several excitation wave-lengths in the uv range were found to be identical with the corresponding deiodinatipn limiting yields, φDE0. This observation and a study of the effects of dissolved oxygen and iodine concentrations suggest that the exchange is initiated by photocleavage of iodobenzene to phenyl (Ph-) and iodine radicals, with O2 and I2 competing in the scavenging of Ph· (kI2+Ph./kO2+Ph.= 2.1 ± 0.5). The photocleavage of iodobenzene was found to be wavelength dependent in the near-uv range (e.g., 334 and 365 nm), where part of the absorption leads directly to the iodobenzene triplet. It is suggested that dissociation takes place from the lowest excited singlet, but practically not from the triplet state. It is shown that iodine atoms, produced by selective excitation in the visible range, do not exchange with iodobenzene. Neither does excitation of the charge-transfer (CT) complex between iodobenzene and iodine lead to exchange or deiodination.
UR - http://www.scopus.com/inward/record.url?scp=33947293204&partnerID=8YFLogxK
U2 - 10.1021/j100690a025
DO - 10.1021/j100690a025
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AN - SCOPUS:33947293204
SN - 0022-3654
VL - 75
SP - 3350
EP - 3354
JO - Journal of Physical Chemistry
JF - Journal of Physical Chemistry
IS - 21
ER -