Fabrication of High-Performance Polyisocyanurate Aerogels through Cocyclotrimerization of 4,4′-Methylene Diphenyl Diisocyanate and Its Mono-Urethane Derivatives

Wang, Changlin; Guo, Yunfei; Türel, Tankut; Tomović, Željko

doi:10.1021/acsami.4c07480

ACS Appl. Mater. Interfaces

2024

DOI: 10.1021/acsami.4c07480

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Fabrication of High-Performance Polyisocyanurate Aerogels through Cocyclotrimerization of 4,4′-Methylene Diphenyl Diisocyanate and Its Mono-Urethane Derivatives

Changlin Wang,

Yunfei Guo,

Tankut Türel

et al.

Abstract: Aromatic polyisocyanurate (PIR) aerogels are recognized as advanced porous materials and extensively studied due to their lightweight nature, high porosity, and specific surface area, which attribute to their outstanding thermal insulation properties. The inherent thermal stability of the PIR moieties, combined with great insulating performance, renders PIR aerogels highly suitable for building insulation applications. Nevertheless, materials containing isocyanurate obtained through direct trimerization of aro… Show more

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One‐Step Synthesis of Closed‐Loop Recyclable and Thermally Superinsulating Polyhexahydrotriazine Aerogels

Wang,

Chen,

Eisenreich

et al. 2024

Advanced Materials

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Organic aerogels are an advanced class of materials renowned for their ultralow thermal conductivity and highly porous architecture, making them ideal for applications in thermal insulation, catalysis, and chemical absorption. However, these polymeric networks pose environmental concerns as their permanently crosslinked scaffold makes recycling back to the original monomers virtually impossible. To tackle this issue and develop next‐generation organic aerogel, a set of polyhexahydrotriazine (PHT) aerogels specifically designed for closed‐loop chemical recycling are prepared. Remarkably, these innovative materials can selectively be synthesized in a one‐step condensation reaction using commercially available aromatic amines. They showcase outstanding thermally insulating performance, along with strong mechanical performance, pronounced thermal stability, and intrinsic hydrophobicity, all achieved without the need for additional modifications. More importantly, these aerogels exhibit quantitative depolymerization under acidic aqueous conditions, achieving high yields and purities of the recovered monomers. The successful preparation of fresh organic aerogels from recycled monomers with nearly identical material properties underscores the efficiency and reliability of this recycling process. The facile one‐step synthesis process, combined with the high‐performance properties and excellent recyclability of these PHT aerogels, accelerates the advancement of sustainable thermally superinsulating materials.

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One‐Step Synthesis of Closed‐Loop Recyclable and Thermally Superinsulating Polyhexahydrotriazine Aerogels

Wang,

Chen,

Eisenreich

et al. 2024

Advanced Materials

View full text Add to dashboard Cite

show abstract

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Fabrication of High-Performance Polyisocyanurate Aerogels through Cocyclotrimerization of 4,4′-Methylene Diphenyl Diisocyanate and Its Mono-Urethane Derivatives

Cited by 1 publication

References 37 publications

One‐Step Synthesis of Closed‐Loop Recyclable and Thermally Superinsulating Polyhexahydrotriazine Aerogels

One‐Step Synthesis of Closed‐Loop Recyclable and Thermally Superinsulating Polyhexahydrotriazine Aerogels

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