将菌丝体锚定在 CNT 上,制造坚固、智能的自再生复合材料

IF 12.7 1区 材料科学 Q1 ENGINEERING, MULTIDISCIPLINARY Composites Part B: Engineering Pub Date : 2024-10-02 DOI:10.1016/j.compositesb.2024.111861
Hao Wang , Wanru Wang , Jie Tao , Siqi Liu , Xunan Hou , Chaobin He
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引用次数: 0

摘要

如何开发新的可再生复合材料,以满足全球对可持续材料日益增长的需求,是人们十分关心的问题。本文通过利用菌丝生长锚定碳纳米管,创造了自再生菌丝-碳纳米管复合材料(MCCs)。它具有良好的强度(∼30 兆帕)、自修复(恢复原强度∼98%)和自感应特性。最后,我们还开发了一个人机交互装置,以展示这项技术的应用。我们的生产工艺利用体外培养的活细胞自主生长,生产出可再生的活体复合材料,不需要苛刻的化学处理和污染性废气排放。最终的机械性能可与商用聚合物塑料媲美,其功能特性可通过引入纳米粒子进一步调整。
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Anchoring mycelium on CNTs to make strong and smart self-regenerative composite materials
How to develop new recycled composite materials to meet the growing global demand for sustainable materials is of great interest. In this paper, by leveraging the growth of mycelium to anchor CNTs, the self-regenerative mycelium-CNTs composite materials (MCCs) are created. It demonstrates good strength (∼30 MPa), self-healing (restore ∼98 % original strength), and self-sensing properties. Finally, a human care-computer interaction device is developed to demonstrate the application of this technology. Our manufacturing process utilizes the autonomous growth of living cells grown in in vitro cultures to produce regenerable living composites that do not require harsh chemical processing and polluting exhaust emissions. The final mechanical properties are comparable to commercial polymer plastics, and their functional properties can be further tuned by introducing nanoparticles.
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来源期刊
Composites Part B: Engineering
Composites Part B: Engineering 工程技术-材料科学:复合
CiteScore
24.40
自引率
11.50%
发文量
784
审稿时长
21 days
期刊介绍: Composites Part B: Engineering is a journal that publishes impactful research of high quality on composite materials. This research is supported by fundamental mechanics and materials science and engineering approaches. The targeted research can cover a wide range of length scales, ranging from nano to micro and meso, and even to the full product and structure level. The journal specifically focuses on engineering applications that involve high performance composites. These applications can range from low volume and high cost to high volume and low cost composite development. The main goal of the journal is to provide a platform for the prompt publication of original and high quality research. The emphasis is on design, development, modeling, validation, and manufacturing of engineering details and concepts. The journal welcomes both basic research papers and proposals for review articles. Authors are encouraged to address challenges across various application areas. These areas include, but are not limited to, aerospace, automotive, and other surface transportation. The journal also covers energy-related applications, with a focus on renewable energy. Other application areas include infrastructure, off-shore and maritime projects, health care technology, and recreational products.
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