Photorearrangements of Five 1- and 2-Naphthyl Acylates in Three
Unstretched and Stretched Polyethylene Films. Does Reaction
Selectivity Correlate with Free Volumes Measured by Positron
Annihilation Lifetime Spectroscopy?
posted on 2000-09-23, 00:00authored byWeiqiang Gu, Anita J. Hill, Xiaochun Wang, Changxing Cui, Richard G. Weiss
The selectivity of photorearrangements of five 1-naphthyl and 2-naphthyl acylates has been
investigated in three unstretched and stretched polyethylene films of different crystallinities and in
isotropic solutions. The influence of variables such as size and position of the aryl groups of the esters,
degree of crystallinity, free volume, and unstretched/stretched state of the films has been explored. The
orthopositronium accessible free volume sites in the undoped unstretched and stretched polyethylenes
have been measured by positron annihilation lifetime spectroscopy. These void free volumes are much
smaller than the van der Waals volumes of the naphthyl molecules under investigation. The naphthyl
esters inside polyethylene cavities act as templates for the formation of their photoproducts. Long alkyl
chains on naphthyl myristates not only affect the shape anisotropy but also induce large van der Waals
interactions with the walls of reaction cavities. Stretching enhances the templating effect and strengthens
the van der Waals attractions with cavity walls in the case of naphthyl myristates, thus inducing marked
increases in reaction selectivities in polyethylene films. Somewhat surprisingly, there is no correlation
between void free volume of a host polyethylene film and selectivity of photoreactions of a guest naphthyl
ester.