Robust and Reprocessable Biorenewable Polyester Nanocomposites In Situ Catalyzed and Reinforced by Dendritic MXene@CNT Heterostructure

Robust and Reprocessable Biorenewable Polyester Nanocomposites In Situ Catalyzed and Reinforced by Dendritic MXene@CNT Heterostructure

Highlights Structurally stable and well-dispersed dendritic MXene@CNT heterostructures with multiple roles (i.e., catalyst, nucleator, and interface enhancer of polyesters) were constructed. Biorenewable MXene@CNT/PBF (MCP) polyester nanocomposites with ultrahigh mechanical strength (≈101 MPa), stif...

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Bibliographic Details
Main Authors: Hao Wang, Jiheng Ding, Hongran Zhao, Qinchao Chu, Jin Zhu, Jinggang Wang
Format: Article
Language:English
Published: SpringerOpen 2025-02-01
Series:Nano-Micro Letters
Subjects:
Bio-based polyesters nanocomposites
Dendritic hetero-structured MXene@CNT
Catalysis-interfacial strengthening integration
High strength and toughness
Reprocessability and multifunctionality
Online Access:https://doi.org/10.1007/s40820-025-01682-8
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Summary:Highlights Structurally stable and well-dispersed dendritic MXene@CNT heterostructures with multiple roles (i.e., catalyst, nucleator, and interface enhancer of polyesters) were constructed. Biorenewable MXene@CNT/PBF (MCP) polyester nanocomposites with ultrahigh mechanical strength (≈101 MPa), stiffness (≈3.1 GPa), and toughness (≈130 MJ m−3) were synthesized via MXene@CNT in situ catalytic polymerization. Exceptional reprocessability, gas barrier (e.g., O2 0.0187 barrer), and UV resistance (e.g., resist 85% UVA rays) properties were achieved for the MCP, which can be employed as high-performance and multifunctional packaging materials for plastic replacement.
ISSN:2311-6706
2150-5551

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