聚合物分子量和石墨烯纳米片对制备的PVA-PEG/GO纳米复合材料的影响:形态、吸附行为和屏蔽应用

IF 1.4 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
R. A. Ghazi, Khalidah H. Al-Mayalee, E. Al‐Bermany, F. Hashim, Abdul Kareem J. Albermany
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引用次数: 6

摘要

分子量(Mw)是影响聚合物及其基体理化性质的一个重要特征。本研究的重点是增加聚乙二醇(PEG)(4、8和20 K)与聚乙烯醇(PVA)混合的Mw的影响。采用水混合-超声-浇铸法制备氧化石墨烯纳米复合材料,并对其光学性能进行了研究。傅里叶变换红外光谱显示了组分之间强的界面相互作用和纳米复合材料的成功制备。光学显微镜和扫描电镜证实了聚合物的良好均匀性和纳米片在基体中的良好分散。吸收峰位于与氧化石墨烯有关的紫外区。PEG - Mw和氧化石墨烯添加剂显著改善了材料的吸光度、实介电和虚介电等光学性能,吸收系数常数分别高达75%、40%、120%和77%。在允许跃迁和禁止跃迁的能隙值分别提高到90%和375%后,光学性质也得到了增强。这些发现表明了这些材料在若干应用方面的潜力,例如在光伏设备和核废料管理中的重金属离子吸收方面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of polymer molecular weights and graphene nanosheets on fabricated PVA-PEG/GO nanocomposites: Morphology, sorption behavior and shielding application
Molecular weight (Mw) is an important feature that affects the physicochemical properties of polymers and their matrices. This study focused on the impact of increasing the Mw of polyethylene glycol (PEG) (4, 8 and 20 K) mixed with polyvinyl alcohol (PVA). Graphene oxide (GO) nanosheets were employed to reinforce the polymer matrix by aquatic mixing-sonication-casting to prepare the nanocomposites and investigate their optical properties. Fourier transform infrared spectroscopy revealed strong interfacial interactions among the components and successful fabrication of the nanocomposites. Optical microscopy and scanning electron microscopy confirmed the fine homogeneity of the polymers and the excellent dispersion of nanosheets in the matrix. The absorption peak was located in the ultraviolet region related to GO. PEG Mw and GO additive significantly improved optical properties such as absorbance, real and imaginary dielectrics and the absorption coefficient constant up to 75%, 40%, 120% and 77%, respectively. An enhancement in the optical properties was also observed after the energy gap values for allowed and forbidden transitions were improved up to 90% and 375%, respectively. These findings suggest the potential of these materials for several applications, such as in photovoltaic devices and heavy metal ion absorption for nuclear waste management.
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来源期刊
AIMS Materials Science
AIMS Materials Science MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
3.60
自引率
0.00%
发文量
33
审稿时长
4 weeks
期刊介绍: AIMS Materials Science welcomes, but not limited to, the papers from the following topics: · Biological materials · Ceramics · Composite materials · Magnetic materials · Medical implant materials · New properties of materials · Nanoscience and nanotechnology · Polymers · Thin films.
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