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Hydrogenation of unsaturated polymers with diimide

1973; Wiley; Volume: 163; Issue: 1 Linguagem: Inglês

10.1002/macp.1973.021630102

0025-116X

Louis A. Mango, Robert W. Lenz,

Fuel Cells and Related Materials

Abstract We have studied the homogeneous hydrogenation of a series of unsaturated polymeric substrates with diimide formed from the thermal decomposition of p ‐toluenesulfonylhydrazide (TSH) at elevated temperatures (110 to 160°C) and in aromatic solvents. At a TSH/olefin ratio of 2.0, homopolymers of butadiene, polycyclohexadiene, and polyisoprene were quantitatively hydrogenated as were two styrene/butadiene copolymers. Alkyl branching at or near the residual polymer double bond, as in methyl rubber and poly‐2.5‐dimethyl‐2.4‐hexadiene, gave less than 50% hydrogenation. Polychloroprene was not hydrogenated by diimide (conversions less than 10%) which is in agreement with the behavior previously observed for low molecular weight olefins. The unsaturated polymers which were successfully hydrogenated were soluble and, hence, showed no excessive crosslinking. Polycyclohexadiene and polyisoprene, the only samples evaluated for molecular weight changes, exhibited no chain degradation. Some qualitative kinetic data were obtained using per cent conversion vs. time data. Under the conditions of toluene reflux and TSH/olefin ratios of 1.5, the relative rates of hydrogenation for cis, trans and vinyl butadiene units was k cis ≃ k trans < k vinyl. Byproducts from the diimide generation resulted in the introduction of 0.2 to 1.0% of p ‐CH 3 C 6 H 4 SO 2 ‐groups into the polymer based upon 100% of the double bonds originally present.