碳纳米管增强聚乙烯醇纳米复合膜的制备及其结构、表面化学和光学性能

Abdul Lateef, Z. A. Raza, M. Aslam, M. A. U. Rehman, Asma Iftikhar, A. Zahir
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摘要

目的采用溶液浇铸法制备多壁碳纳米管(MWCNTs)介导聚乙烯醇(PVA)复合薄膜。利用先进的分析技术对制备的薄膜的各种结构、表面、光学和电学属性进行了评估,即电子显微镜对表面形貌进行了评估,傅里叶变换红外光谱对化学功能进行了追踪,x射线衍射(XRD)对晶体模式进行了分析,水接触角(WCA)分析了表面润湿性,紫外可见光谱对光学吸收参数进行了分析。在适用的情况下,还对样品进行了某些流变学、机械和电学性能的研究。表面形貌结果表明MWCNTs在聚乙烯醇基纳米复合膜中的分散性更好。XRD分析表明,纳米复合膜呈结晶状。表面润湿性分析表明,加入MWCNTs后,纳米复合膜的WCA从原始PVA膜的44°提高到89.4°。MWCNTs (1.00%, w/w)掺入的PVA基膜的抗拉强度为54.0 MPa,而天然PVA膜的抗拉强度为25.3 MPa。在pva基纳米复合膜中加入MWCNTs后,带隙减小(从5.25 eV降至5.14 eV)。实际意义MWCNTs包埋在PVA基体中可以提高纳米复合膜的交流导电性。所制备的纳米复合薄膜可用于某些光电器件的设计。结果表明,MWCNTs在pva基复合膜中的成功中介表达了前驱体的良好嵌入;这导致带隙减小,通常是光电应用所需要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fabrication of CNTs-reinforced poly(vinyl alcohol) nanocomposite film with tailored structural, surface chemical and optical properties
Purpose This study aims to fabricate multiwalled carbon nanotubes (MWCNTs)-mediated polyvinyl alcohol (PVA) composite films using the solution casting approach. Design/methodology/approach The prepared films were evaluated for diverse structural, surface, optical and electrical attributes using advanced analytical techniques, i.e. electron microscopy for surface morphology, Fourier transform infrared spectroscopy for tracing chemical functionalities, x-ray diffraction (XRD) for crystal patterns, water contact angle (WCA) analysis for surface wettability and UV visible spectroscopy for optical absorption parameters. The specimens were also investigated for certain rheological, mechanical and electrical properties, where applicable. Findings The surface morphology results expressed a better dispersion of MWCNTs in the resultant PVA-based nanocomposite film. The XRD analysis exhibited that the nanocomposite film was crystalline. The surface wettability analysis indicated that with the inclusion of MWCNTs, the WCA of the resultant nanocomposite film improved to 89.4° from 44° with the pristine PVA film. The MWCNTs (1.00%, w/w) incorporated PVA-based film exhibited a tensile strength of 54.0 MPa as compared to that of native PVA as 25.3 MPa film. There observed a decreased bandgap (from 5.25 to 5.14 eV) on incorporating the MWCNTs in the PVA-based nanocomposite film. Practical implications The MWCNTs’ inclusion in the PVA matrix could enhance the AC conductivity of the resultant nanocomposite film. The prepared nanocomposite film might be useful in designing certain optoelectronic devices. Originality/value The results demonstrated the successful MWCNTs mediation in the PVA-based composite films expressed good intercalation of the precursors; this resulted in decreased bandgap, usually, desirable for optoelectronic applications.
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