Weidong Zhou, Yan Yuan, Jingsong Zhang
Sep 26, 2003
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Influential Citations
16
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Journal
Journal of Chemical Physics
Abstract
193.3-nm photodissociation dynamics of jet-cooled 1-propanol and 2-propanol and their partially deuterated variants are examined by using the high-n Rydberg-atom time-of-flight technique. Isotope labeling studies show that O–H bond fission is the primary H-atom production channel in the ultraviolet photodissociation of both 1-propanol and 2-propanol. Center-of-mass (c.m.) product translational energy release of the RO–H dissociation channel is large, with 〈fT〉=0.78 for H+1-propoxy (n-propoxy) and 0.79 for H+2-propoxy (isoproxy). Maximum c.m. translational energy release yields an upper limit of the O–H bond dissociation energy: 433±2 kJ/mol in 1-propanol and 435±2 kJ/mol in 2-propanol. H-atom product angular distribution is anisotropic (with β≈−0.79 for 1-propanol and −0.77 for 2-propanol), suggesting an electronic transition moment perpendicular to the H–O–C plane and a short excited-state dissociation lifetime (less than a rotational period). Information about photodissociation dynamics and bond energie...