Mechanistic study of Sn(Oct)2‐catalyzed ε‐caprolactone polymerization using Sn(Oct)2/BF3 dual catalyst

A novel method was used to investigate the mechanism of Sn(Oct)₂‐catalyzed ε‐caprolactone polymerization by using Sn(Oct)₂/BF₃ dual catalyst. The bulk polymerization was conducted at 110 and 130°C with different Sn(Oct)₂/BF₃ ratios. The polymerization kinetics was followed using gel permeation chromatography, and the molecular structures of the low‐molecular weight polymers were examined using ¹H‐nuclear magnetic resonance (NMR). A polymerization induction period was observed in polymerizations containing the Sn(Oct)₂ catalyst, but it was not observed in the system containing only BF₃. After the induction period, BF₃ and Sn(Oct)₂ initiated the polymerization separately. For Sn(Oct)₂ catalyst with no purposely added alcohol, the actual initiation species is a tin hydroxide species formed in situ by the reaction of Sn(Oct)₂ and adventitious water. For BF₃ catalyst, the active species is the protonic acid formed by the reaction of BF₃ with the adventitious water. When mixed, the Sn(Oct)₂ reacts with the adventitious water faster than the BF₃, preventing the BF₃ catalyzing any polymerizations during the induction period. © 2009 Wiley Periodicals, Inc. J Appl Polym Sci, 2009