Search Results - "Diment, Wilfred T"

Understanding catalytic synergy in dinuclear polymerization catalysts for sustainable polymers by Fiorentini, Francesca, Diment, Wilfred T., Deacy, Arron C., Kerr, Ryan W. F., Faulkner, Stephen, Williams, Charlotte K.

“…Understanding the chemistry underpinning intermetallic synergy and the discovery of generally applicable structure-performances relationships are major…”
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Catalytic Synergy Using Al(III) and Group 1 Metals to Accelerate Epoxide and Anhydride Ring-Opening Copolymerizations by Diment, Wilfred T, Gregory, Georgina L, Kerr, Ryan W. F, Phanopoulos, Andreas, Buchard, Antoine, Williams, Charlotte K

“…The controlled synthesis of polyesters via epoxide/anhydride ring-opening copolymerization is a versatile and generally applicable method to make many…”
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Synergic Heterodinuclear Catalysts for the Ring-Opening Copolymerization (ROCOP) of Epoxides, Carbon Dioxide, and Anhydrides by Diment, Wilfred T., Lindeboom, Wouter, Fiorentini, Francesca, Deacy, Arron C., Williams, Charlotte K.

“…Conspectus The development of sustainable plastic materials is an essential target of chemistry in the 21st century. Key objectives toward this goal include…”
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Chain end-group selectivity using an organometallic Al()/K() ring-opening copolymerization catalyst delivers high molar mass, monodisperse polyesters by Diment, Wilfred T, Williams, Charlotte K

“…Polyesters are important plastics, elastomers and fibres; efficient and selective polymerizations making predictable, high molar mass polymers are required…”
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Recyclable and (Bio)degradable Polyesters in a Circular Plastics Economy by Shi, Changxia, Quinn, Ethan C., Diment, Wilfred T., Chen, Eugene Y.-X.

“…Polyesters carrying polar main-chain ester linkages exhibit distinct material properties for diverse applications and thus play an important role in today’s…”
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Closed-Loop Recycling of Mixed Plastics of Polyester and CO 2 -Based Polycarbonate to a Single Monomer by Shi, Changxia, Diment, Wilfred T, Chen, Eugene Y-X

“…Physical blending is an effective strategy for tailoring polymeric materials to specific application requirements. However, physically blended mixed plastics…”
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Closed‐Loop Recycling of Mixed Plastics of Polyester and CO2‐Based Polycarbonate to a Single Monomer by Shi, Changxia, Diment, Wilfred T., Chen, Eugene Y.‐X.

“…Physical blending is an effective strategy for tailoring polymeric materials to specific application requirements. However, physically blended mixed plastics…”
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Correction to Recyclable and (Bio)degradable Polyesters in a Circular Plastics Economy by Shi, Changxia, Quinn, Ethan C., Diment, Wilfred T., Chen, Eugene Y.-X.

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Unraveling the Mechanism of Catalyzed Melt-Phase Polyester Depolymerization via Studies of Kinetics and Model Reactions by Diment, Wilfred T., Gowda, Ravikumar R., Chen, Eugene Y.-X.

“…Developing a mechanistic understanding of catalyzed melt-phase depolymerization processes is of utmost importance to the rapidly expanding field of circular…”
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Al(III)/K(I) Heterodinuclear Polymerization Catalysts Showing Fast Rates and High Selectivity for Polyester Polyols by Shellard, Edward J. K., Diment, Wilfred T., Resendiz-Lara, Diego A., Fiorentini, Francesca, Gregory, Georgina L., Williams, Charlotte K.

“…Low molar mass, hydroxyl end-capped polymers, often termed “polyols,” are widely used to make polyurethanes, resins, and coatings and as surfactants in liquid…”
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Closed‐Loop Recycling of Mixed Plastics of Polyester and CO2‐Based Polycarbonate to a Single Monomer by Shi, Changxia, Diment, Wilfred T., Chen, Eugene Y.‐X.

“…Physical blending is an effective strategy for tailoring polymeric materials to specific application requirements. However, physically blended mixed plastics…”
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Closed‐Loop Recycling of Mixed Plastics of Polyester and CO 2 ‐Based Polycarbonate to a Single Monomer by Shi, Changxia, Diment, Wilfred T., Chen, Eugene Y.‐X.

“…Abstract Physical blending is an effective strategy for tailoring polymeric materials to specific application requirements. However, physically blended mixed…”
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Asymmetric syntheses of the methyl 3-deoxy-3-amino-glycosides of d-glycero-l-gulo-heptose, d-glycero-d-galacto-heptose, d-glycero-l-allo-heptose and d-glycero-d-allo-heptose by Brambilla, Marta, Davies, Stephen G., Diment, Wilfred T., Fletcher, Ai M., Lee, James A., Roberts, Paul M., Thomson, James E., Waul, Michael A.

“…[Display omitted] The methyl glycosides of 3-deoxy-3-amino-d-glycero-l-gulo-heptose, 3-deoxy-3-amino-d-glycero-d-galacto-heptose,…”
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