Heterotrimetallic Carbon Dioxide Copolymerization and Switchable Catalysts: Sodium is the Key to High Activity and Unusual Selectivity

High Elasticity, Chemically Recyclable, Thermoplastics From Bio-Based Monomers: Carbon Dioxide, Limonene Oxide And Ε-Decalactone

Heterodinuclear Catalysts Zn(II)/M And Mg(II)/M, Where M = Na(I), Ca(II) Or Cd(II), For Phthalic Anhydride/Cyclohexene Oxide Ring Opening Copolymerisation

High-Performance Plastic Made From Renewable Oils Is Chemically Recyclable By Design

Ultrarapid Cerium(III)–NHC Catalysts for High Molar Mass Cyclic Polylactide

Ortho-Vanillin Derived Al(III) And Co(III) Catalyst Systems For Switchable Catalysis Using Ε-Decalactone, Phthalic Anhydride And Cyclohexene Oxide

Co(III)/Alkali-Metal(I) Heterodinuclear Catalysts for the Ring-Opening Copolymerization of CO2 and Propylene Oxide

Bio‐based and Degradable Block Polyester Pressure‐Sensitive Adhesives

Triblock Polyester Thermoplastic Elastomers With Semi-Aromatic Polymer End Blocks By Ring-Opening Copolymerization

Understanding Metal Synergy In Heterodinuclear Catalysts For The Copolymerization Of CO2 And Epoxides

Switchable Catalysis Improves the Properties of CO2-Derived Polymers: Poly(cyclohexene carbonate-b-ε-decalactone-b-cyclohexene carbonate) Adhesives, Elastomers, and Toughened Plastics

Ti(IV)–Tris(phenolate) Catalyst Systems for the Ring-Opening Copolymerization of Cyclohexene Oxide and Carbon Dioxide

Metal Complexes for Catalytic Polymerizations

Heterodinuclear Complexes Featuring Zn(II) And M = Al(III), Ga(III) Or In(III) For Cyclohexene Oxide And CO2 Copolymerisation

The Technological And Economic Prospects For CO2 Utilization And Removal