Preparation of Well-Defined Double-Metal Cyanide Catalysts for Propylene Oxide Polymerization and CO<sub>2</sub> Copolymerization

Seo, Yeong Hyun; Lee, Mi Ryu; Lee, Da-Young; Park, Jun Hyeong; Seo, Hyeon Jeong; Park, Sang Uk; Kim, Hyunjin; Kim, Seung-Joo; Lee, Bun Yeoul

doi:10.1021/acs.inorgchem.3c03957

Inorg. Chem.

2024

DOI: 10.1021/acs.inorgchem.3c03957

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Preparation of Well-Defined Double-Metal Cyanide Catalysts for Propylene Oxide Polymerization and CO₂ Copolymerization

Yeong Hyun Seo,

Mi Ryu Lee,

Da-Young Lee

et al.

Abstract: Reevaluating the composition of the double metal cyanide catalyst (DMC) as a salt of (NC) 6 Co 3− anions with 1:1 Zn 2+ /(X)Zn + cations (X = Cl, RO, AcO), we prepared a series of well-defined DMCs, [was precisely determined at the atomic level through Rietveld refinement of the synchrotron X-ray powder diffraction data. By evaluating the catalyst's performance in both propylene oxide (PO) polymerization and PO/CO 2 copolymerization, a correlation between structure and performance was established on various as… Show more

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Evolution of Copolymers of Epoxides and CO₂: Catalysts, Monomers, Architectures, and Applications

Yang,

Xie,

Zhang

et al. 2024

Chem. Rev.

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The copolymerization of CO 2 and epoxides presents a transformative approach to converting greenhouse gases into aliphatic polycarbonates (CO 2 -PCs), thereby reducing the polymer industry's dependence on fossil resources. Over the past 50 years, a wide array of metallic catalysts, both heterogeneous and homogeneous, have been developed to achieve precise control over polymer selectivity, sequence, regio-, and stereoselectivity. This review details the evolution of metal-based catalysts, with a particular focus on the emergence of organoborane catalysts, and explores how these catalysts effectively address kinetic and thermodynamic challenges in CO 2 /epoxides copoly 2 merization. Advances in the synthesis of CO 2 -PCs with varied sequence and chain architectures through diverse polymerization protocols are examined, alongside the applications of functional CO 2 -PCs produced by incorporating different epoxides. The review also underscores the contributions of computational techniques to our understanding of copolymerization mechanisms and highlights recent advances in the closed-loop chemical recycling of CO 2 -sourced polycarbonates. Finally, the industrialization efforts of CO 2 -PCs are discussed, offering readers a comprehensive understanding of the evolution and future potential of epoxide copolymerization with CO 2 .

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Evolution of Copolymers of Epoxides and CO₂: Catalysts, Monomers, Architectures, and Applications

Yang,

Xie,

Zhang

et al. 2024

Chem. Rev.

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Synthesis, Structure, and Actual Applications of Double Metal Cyanide Catalysts

Nifant’ev,

Ivchenko

2024

IJMS

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Double metal cyanide (DMC) complexes represent a unique family of materials with an open framework structure. The main current application of these complexes in chemical industry is their use as catalysts (DMCCs) of the ring-opening polymerization of propylene oxide (PO), yielding branched polyols, highly demanded in production of polyurethanes and surfactants. The actual problem of chemical fixing carbon dioxide from the atmosphere gave new impetus to the development of DMCCs, which turned out to be effective in oxirane/CO2 copolymerization. In recent years, new types and formulations of DMCCs were created, so that greater understanding of the reaction mechanisms was achieved and new fields of catalytic applications were found. In the present review, we summarized background and actual information about the synthesis, structure, and mechanisms of the action of DMCCs, as well as their application in the development of new materials and fine chemicals.

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Preparation of Well-Defined Double-Metal Cyanide Catalysts for Propylene Oxide Polymerization and CO₂ Copolymerization

Cited by 2 publications

References 56 publications

Evolution of Copolymers of Epoxides and CO₂: Catalysts, Monomers, Architectures, and Applications

Evolution of Copolymers of Epoxides and CO₂: Catalysts, Monomers, Architectures, and Applications

Synthesis, Structure, and Actual Applications of Double Metal Cyanide Catalysts

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Preparation of Well-Defined Double-Metal Cyanide Catalysts for Propylene Oxide Polymerization and CO2 Copolymerization

Cited by 2 publications

References 56 publications

Evolution of Copolymers of Epoxides and CO2: Catalysts, Monomers, Architectures, and Applications

Evolution of Copolymers of Epoxides and CO2: Catalysts, Monomers, Architectures, and Applications

Synthesis, Structure, and Actual Applications of Double Metal Cyanide Catalysts

Contact Info

Product

Resources

About

Preparation of Well-Defined Double-Metal Cyanide Catalysts for Propylene Oxide Polymerization and CO₂ Copolymerization

Evolution of Copolymers of Epoxides and CO₂: Catalysts, Monomers, Architectures, and Applications

Evolution of Copolymers of Epoxides and CO₂: Catalysts, Monomers, Architectures, and Applications