Elizabeth A. Dhulst scite author profile

Elizabeth A. Dhulst

3Publications

54Citation Statements Received

15Citation Statements Given

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Affiliations

Northwestern University, Northwest University

Publications

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Cooperative Catalysis of Cyclic Carbonate Ring Opening: Application Towards Non‐Isocyanate Polyurethane Materials

et al. 2015

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The reaction between cyclic carbonates and amines to produce hydroxyurethanes is an important alternative to current urethane chemistry. In order to address the issue of slow reaction rates, an efficient ring opening of cyclic carbonates with amines has been achieved utilizing cooperative catalysis. A new Lewis acid/Lewis base combination substantially decreases the reaction times for small molecule systems to reach complete conversion. Although triazabicyclodecene (TBD) has a substantial impact on the reaction rate, the addition of lithium triflate (LiOTf) as a co‐catalyst allows for the fastest ring opening reported in the current literature. Cooperative catalysis is also applied to the synthesis of polymers containing hydroxyurethane linkages and is able to achieve rapid conversion of the bis‐cyclic carbonate and diamine precursors when compared with the uncatalyzed reaction.

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Hybrid thiol-acrylate-epoxy polymer networks: Comparison of one-pot synthesis with sequential reactions and shape memory properties

Dhulst

Heath

Torkelson

2016

Polymer

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ChemInform Abstract: Cooperative Catalysis of Cyclic Carbonate Ring Opening: Application Towards Non‐Isocyanate Polyurethane Materials.

et al. 2015

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The reaction between cyclic carbonates and amines to produce hydroxyurethanes is an important alternative to current urethane chemistry. In order to accelerate the reaction rate, a new efficient catalyst system is employed. This cooperative catalysis is also applied to the synthesis of polymers containing hydroxyurethane linkages. -(LOMBARDO, V. M.; DHULST, E. A.; LEITSCH, E. K.; WILMOT, N.; HEATH, W. H.; GIES, A. P.; MILLER, M. D.; TORKELSON*, J. M.; SCHEIDT, K. A.; Eur.

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