Catalytic thiolation-depolymerization-like decomposition of oxyphenylene-type super engineering plastics via selective carbon–oxygen main chain cleavages

Minami, Yasunori; Imamura, Sae; Matsuyama, Nao; Nakajima, Yumiko; Yoshida, Masaru

doi:10.1038/s42004-024-01120-7

Commun Chem

2024

DOI: 10.1038/s42004-024-01120-7

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Catalytic thiolation-depolymerization-like decomposition of oxyphenylene-type super engineering plastics via selective carbon–oxygen main chain cleavages

Yasunori Minami,

Sae Imamura,

Nao Matsuyama

et al.

Abstract: As the effective use of carbon resources has become a pressing societal issue, the importance of chemical recycling of plastics has increased. The catalytic chemical decomposition for plastics is a promising approach for creating valuable products under efficient and mild conditions. Although several commodity and engineering plastics have been applied, the decompositions of stable resins composed of strong main chains such as polyamides, thermoset resins, and super engineering plastics are underdeveloped. Esp… Show more

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Cited by 6 publications

References 92 publications

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Depolymerization of Polycarbonates by Transesterification without Using Base, Ionic Liquid, and Additives

Yamada,

Komine,

Hirano

2024

ChemCatChem

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La(III)‐catalyzed depolymerization of polycarbonates produces the raw carbonates and diols by transesterification without the use of bases, ionic liquids or additives. Poly(bisphenol A carbonate) (1a) is depolymerized by [La(acac)3] (acac: acetylacetonate) (1 mol%) in MeOH at 135 ˚C for 20 min to give dimethyl carbonate (2a) (95%) and bisphenol A (3a) (93%). This reaction can also be carried out in the air using MeOH as received and on a 10 gram‐scale. A commercial compact disk (CD) can also be depolymerized quantitatively. Depolymerization of 1a in EtOH or 1,2‐propanediol produces corresponding carbonate with 3a. Poly(ethylene carbonate) (1b) and poly(propylene carbonate) (1c) are converted into dimethyl carbonate and corresponding glycols in high yields in MeOH. The kinetic study suggests the surface reaction mechanism for the La(III)‐catalyzed depolymerization of 1a.

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Depolymerization of Polycarbonates by Transesterification without Using Base, Ionic Liquid, and Additives

Yamada,

Komine,

Hirano

2024

ChemCatChem

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Facile Depolymerization of Thermally Stable Polyetherethersulfone and Polyetheretherketone Using Hydroquinone and Bases

Minami,

Honobe,

Tsuyuki

et al. 2024

ChemSusChem

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Super engineering plastics such as polyetheretherketone (PEEK) and polyetherethersulfone (PEES) exhibit thermal stability, chemical resistance, and mechanical strength. Such characteristics are attributed to their robust chemical structures composed of stable aryl ethers. These features make chemical recycling difficult. This is because it is necessary to overcome through the stability of the material and then precisely cleave the stable bonds. This study demonstrates the depolymerization of PEES and PEEK by hydroquinone in the presence of sodium hydroxide in 1,3‐dimethyl‐2‐imidazolidinone (DMI) solvent at 150 ºC. This method effectively provides monomeric products, diphenylsulfone and benzophenone having two 4‐hydroxyphenoxy groups at both para positions. DMI solvent was the crucial factor for this transformation, since it enhanced the reactivity of hydroquinone to cleave the aryl ether bonds.

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Depolymerization and Functionalization of Super Engineering Plastics

Gu,

Huang,

Zhao

et al. 2024

Chin J Polym Sci

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Catalytic thiolation-depolymerization-like decomposition of oxyphenylene-type super engineering plastics via selective carbon–oxygen main chain cleavages

Cited by 6 publications

References 92 publications

Depolymerization of Polycarbonates by Transesterification without Using Base, Ionic Liquid, and Additives

Depolymerization of Polycarbonates by Transesterification without Using Base, Ionic Liquid, and Additives

Facile Depolymerization of Thermally Stable Polyetherethersulfone and Polyetheretherketone Using Hydroquinone and Bases

Depolymerization and Functionalization of Super Engineering Plastics

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