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Research Article | Open Access

High strength sustainable nanocomposites with multicomponent synergistic reinforcement

Guojun Che1,2Shuxing Yin1,2Cheng Qian1,2Can Zhou1,2Yi Ding1,2Ying Zhang1,2Chuangqi Zhao1,2 ( )Lei Jiang1,2
State Key Laboratory of Bioinspired Interfacial Materials Science, School of Chemistry and Materials Science, University of Science and Technology of China, Hefei 230026, China
Suzhou Institute for Advanced Research, University of Science and Technology of China, Suzhou 215123, China
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Abstract

Plastics play an indispensable role in daily life, but their adverse impacts on nature and human health are becoming increasingly severe due to their non-degradability and the persistent accumulation of plastic waste. It is essential to develop biodegradable and sustainable alternatives with favorable mechanical properties. Here, we developed a dilute-solution-based strategy that enables the facile and scalable production of high strength sustainable nanocomposites with multicomponent synergistic reinforcement. Owing to the shear-flow-induced nanosheets alignment and strong interfacial interactions, the nanocomposites achieve outstanding mechanical properties, with a high tensile strength of 566.9 ± 13.5 MPa. Moreover, these nanocomposites possess electromechanical stability and thermal stability, and can fully biodegrade within 30 days in natural soil. This strategy provides an effective pathway for the design of high-performance sustainable nanocomposites.

Graphical Abstract

We propose a method combining superspreading and ionic crosslinking to rapidly and scalably fabricate sustainable nanocomposites, achieving synergistic enhancement of mechanical properties. This nanocomposite has high strength, high thermal stability, and rapid biodegradability, and is expected to provide an effective way for the development of sustainable nanocomposite.

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Nano Research
Article number: 94908491

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Cite this article:
Che G, Yin S, Qian C, et al. High strength sustainable nanocomposites with multicomponent synergistic reinforcement. Nano Research, 2026, 19(5): 94908491. https://doi.org/10.26599/NR.2026.94908491
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Received: 11 December 2025
Revised: 23 January 2026
Accepted: 25 January 2026
Published: 10 April 2026
© The Author(s) 2026. Published by Tsinghua University Press.

This is an open access article under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0, https://creativecommons.org/licenses/by/4.0/).