纳米纤维素增强绿色剂在聚合物基复合材料电子应用中的应用

IF 3.4 4区 化学 Q2 POLYMER SCIENCE
Manjunathan Alagarsamy, S. R. Barkunan, N. Jayapal, A. Murugan, P. Muralikrishnan, P. J. Ramulu
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引用次数: 1

摘要

由于其丰富、高耐久性和刚度,较轻的重量和可生物降解的性质的纳米纤维素(NC)被认为是制备绿色复合材料的有抱负者的挑战性任务。通过氢键连接的纤维素纳米颗粒的连续网络主要是由于NC的机械重现现象所具有的增强作用。与纳米晶体纤维素相比,NC在耐久性和刚度方面有了显著的进步,并且NC的纵横比高于NC晶体。NC的增强效应是NC-聚合物相互作用的特征,也是通过NC-聚合物界面的应力传递而产生的增强效应。因此,由于NC增强成分的脆弱性以及由于基体和填料之间的表面顺应性,增强颗粒的浓度上升到饱和水平。由于其结构坚固性和机械性能,NC化合物被用于许多工业应用,如组织工程、食品包装和电子应用。可拉伸电子系统和仪器由于其在某些领域的重要应用而备受关注,如机器人人工智能、大脑控制和机器接口、临床设备和医疗保健电子监测设备。此外,在实现电子设备的操作性能时,电子仪器和系统必须具有物理可扩展性和灵活性。本研究认为,NC化合物的增强技术是电子应用中的绿色剂,与聚合物基体复合材料有关。伸长率可以通过经由弹性体配制组合物来实现。此外,它还专注于说明材料的功能性软开发,包括用于细长电极和电热转换的导电本征聚合物,反之亦然,与触觉传感元件一起占据最大面积。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reinforcement of Nanocellulose as Green Agent in the Electronic Applications Associated with the Composites of Polymer Matrix
Due to their profusion, high durability, and rigidity, lesser weight and biodegradable nature nanocellulose (NC) is observed as the challenging tasks for the aspirants in making of the green composites. The continuous network of the cellulose nanoparticle connected through hydrogen bonding is happened mainly due to the reinforcing effect allocated to the mechanical reoccurrence phenomenon of the NC. When comparing with the nanocrystalline cellulose, the NC has significant convincing progress in the durability and rigidity, and the aspect ratio of the NC is higher than that of the NC crystal. The reinforcement effect of NC is the characteristic of the NC polymer interaction as well as the reinforcement effect eventualizing through stress transfer at the NC–polymer interface. Thus, the concentration of the reinforcement particle rises to the saturation level due to the frailty of the NC reinforcement constituent and due to surface compliance between the matrix and the filler. Due to its structural firmness and mechanical behaviors, the NC compounds are used in many industrial applications like tissue engineering, food packaging, and electronic applications. The stretchable electronic systems and instruments are awaiting the maximal attention due to its essential applications in certain domains, such as robotics artificial intelligence, brain control and machine interface, clinical devices, and health care electronic monitoring devices. In addition to that, when realizing the operational performance of electronic devices, the electronic instruments and systems must be physically expandable and flexible. The proposed study deems the technique of reinforcing the NC compounds as green agent in electronic applications, which has been associated with the composites of polymer matrix. The elongation could be achieved through the formulation of composition via elastomers. In addition, it is being focused on the illustration of functional soft development of materials that is inclusive of the conductive intrinsic polymers for the elongated electrodes and electrothermal conversion and vice versa, occupying the maximal area along with tactile sensing elements.
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来源期刊
CiteScore
6.10
自引率
0.00%
发文量
55
审稿时长
>12 weeks
期刊介绍: The International Journal of Polymer Science is a peer-reviewed, Open Access journal that publishes original research articles as well as review articles on the chemistry and physics of macromolecules.
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