Coupled equilibria in H-bond donating ring-opening polymerization: The effective catalyst-determined shift of a polymerization equilibrium

Coupled equilibria in H-bond donating ring-opening polymerization: The effective catalyst-determined shift of a polymerization equilibrium

[Display omitted] •ROP and catalyst/reagent binding equilibria are highly coupled.•Thiourea favors depolymerization to provide a lactone binding partner to thiourea.•Varying amounts of thiourea catalyst alters the total amount of monomer at equilibrium.•Rapid and reversible binding of thiourea to VL...

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Bibliographic Details
Published in:European polymer journal Vol. 95; pp. 671 - 677
Main Authors: Datta, Partha P., Pothupitiya, Jinal U., Kiesewetter, Elizabeth T., Kiesewetter, Matthew K.
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-10-2017
Elsevier BV
Subjects:
Catalysis
Catalysts
Free energy
Free energy of reaction
H-bonding
Lactone
Lactones
Monomers
Polymerization
Ring opening polymerization
Studies
Thiourea
Thioureas
Ring-opening polymerization
Lactone
Thiourea
H-bonding
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Summary:[Display omitted] •ROP and catalyst/reagent binding equilibria are highly coupled.•Thiourea favors depolymerization to provide a lactone binding partner to thiourea.•Varying amounts of thiourea catalyst alters the total amount of monomer at equilibrium.•Rapid and reversible binding of thiourea to VL allows for monomer isolation. In the classic view of catalysis, a catalyst cannot alter the thermodynamically-determined endpoint of a reversible reaction. This conclusion is predicated on the assumption that the catalyst does not perturb the energy of product or reactant or does so to an equal extent. In the H-bond mediated ring-opening polymerization (ROP) of lactone monomers, the strength of the interactions of thiourea with product and reactant are not equal, and the magnitudes of these interactions are of similar energy to the free energy of reaction. The total monomer concentration at equilibrium in the thiourea/base cocatalyzed ROP of lactones is shown to be a function of the initial concentration of thiourea. Because the binding of thiourea to monomer and the polymerization reaction itself are both reversible, the application of varying amounts of thiourea catalyst directly alters the total amount of monomer in the reaction solution at equilibrium, which can be recovered at the end of the reaction.
ISSN:0014-3057
1873-1945
DOI:10.1016/j.eurpolymj.2017.05.018