Redox Control of a Ring-Opening Polymerization Catalyst

Erin M. Broderick; Neng Guo; Carola S. Vogel; Cuiling Xu; Jörg Sutter; Jeffrey T. Miller; Karsten Meyer; Parisa Mehrkhodavandi; Paula L. Diaconescu

doi:10.1021/ja2036089

Redox Control of a Ring-Opening Polymerization Catalyst

Erin M. Broderick(University of California, Los Angeles), Neng Guo(Argonne National Laboratory), Carola S. Vogel(Friedrich-Alexander-Universität Erlangen-Nürnberg), Cuiling Xu(University of British Columbia), Jörg Sutter(Friedrich-Alexander-Universität Erlangen-Nürnberg), Jeffrey T. Miller(Argonne National Laboratory), Karsten Meyer(Friedrich-Alexander-Universität Erlangen-Nürnberg), Parisa Mehrkhodavandi(University of British Columbia), Paula L. Diaconescu(University of California, Los Angeles)

Journal of the American Chemical Society

May 23, 2011

10.1021/ja2036089

Cited by 248

Abstract

The activity of an yttrium alkoxide complex supported by a ferrocene-based ligand was controlled using redox reagents during the ring-opening polymerization of L-lactide. The oxidized complex was characterized by X-ray crystallography and (1)H NMR, XANES, and Mössbauer spectroscopy. Switching in situ between the oxidized and reduced yttrium complexes resulted in a change in the rate of polymerization of L-lactide. Synthesized polymers were analyzed by gel permeation chromatography. Polymerization of trimethylene carbonate was also performed with the reduced and oxidized forms of an indium alkoxide complex. The indium system showed the opposite behavior to that of yttrium, revealing a metal-based dependency on the rate of polymerization.

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