Robust, Carbon Nanotube/Polymer Nanolayered Composites with Enhanced Ductility and Strength

I. Harsini, Faris Matalkah, P. Soroushian, Anagi M Balach, Ra
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引用次数: 6

Abstract

Robust, Carbon Nanotube/Polymer Nanolayered Composites with Enhanced Ductility and Strength A new class of robust, nanolayered, self-assembled composite was developed by sequential deposition of electrostatically dispersed negatively charged carbon nanotubes (CNT) (charges were introduced via polymer wrapping) and oppositely charged polyelectrolytes on a polyurethane scaffold and subsequent heating. Heat treatment allowed for the formation of amide bonds between carboxylic acid functionalities on CNT walls and amine groups of the polyelectrolyte resulting strong covalent bonded network (crosslinked) of self-assembled, nanolayered composite. This robust nanolayered composite demonstrated high tensile strength and enhanced ductility compared to that of original polyurethane scaffold. The self-assembled nanolayered composites, after complementary cross-linking steps, were found to provide a unique balance of strength and ductility, which surpassed those of conventional (micro-scale) composites.
具有增强延展性和强度的碳纳米管/聚合物纳米层复合材料
将静电分散的带负电荷的碳纳米管(CNT)(通过聚合物包裹引入电荷)和带相反电荷的聚电解质依次沉积在聚氨酯支架上并随后加热,开发了一种新型的坚固的纳米层自组装复合材料。热处理允许在碳纳米管壁上的羧酸官能团和聚电解质的胺基之间形成酰胺键,从而形成自组装的纳米层复合材料的强共价键网络(交联)。与原来的聚氨酯支架相比,这种坚固的纳米层复合材料具有较高的拉伸强度和增强的延展性。经过互补交联步骤,发现自组装纳米层复合材料提供了独特的强度和延展性平衡,超过了传统(微尺度)复合材料。
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