Abstract
Here we report the synthesis and crystalline structure of a family of three precision ethylene/vinyl fluoride (EVF) polymers with fluorine atoms on each and every 9th, 15th, and 21st carbon via ADMET polymerization, followed by exhaustive hydrogenation. The primary structure of the polymers is confirmed by NMR, TGA, IR, and elemental analysis. The crystallization pattern of these systems is analogous to that of homopolymers as evidenced by the equivalent halogen content in amorphous and crystalline regions, as obtained by solid-state NMR. This is supported by SAXS periodicities that conform with layered crystalline−amorphous structures of folded chains. While the thickness of the amorphous layer is small (∼45 A) and constant within the series, the crystallite thicknesses (∼200−100 A) decrease with increasing fluorine. The latter, and the depression of crystallinity, equilibrium melting, and heat of fusion with increasing content of F attest to the restrictions of this halogen, although of a small volume, ...
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