四氟乙烯端粒溶液对猪草茎纤维素的疏水性研究

S. A. Baskakov, Y. V. Baskakova, E. N. Kabachkov, G. Kichigina, P. P. Kushch, D. Kiryukhin, S. S. Krasnikova, E. Badamshina, T. A. Soldatenkov, V. N. Vasilets, F. Milovich, Y. Shulga
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摘要

详细介绍了从大猪草茎和猪皮中提取纤维素的工艺。从使用这种杂草的角度来看,这项任务是相关的。采用元素分析、红外光谱(IR)、x射线粉末衍射、差示扫描量热法(DSC)和x射线光电子能谱(XPS)对所得纤维素样品的元素组成和性质进行了研究。通过对纤维素的红外光谱和x射线谱图的研究,可以确定纤维素的结晶度(65 ~ 75%)。根据DSC结果估计了样品的玻璃化转变温度(105 ~ 108℃)。将所得纤维素的特性与现有文献数据进行了比较分析。用辐射合成的四氟乙烯(TFE)端聚物溶液处理从纤维素中获得的鸡血球,可以获得接触角超过140°的疏水材料。为了疏水,我们使用了在丙酮、二元溶剂Freon 113 +氨和Flutec PP3中合成的TFE端粒,它们具有不同的端基。已经确定,端聚体处理的纤维素鸡毛体表面的界面角取决于端聚体的组成(端基)和合成时TFE的初始浓度。确定了在Flutec PP3中合成端粒物的最佳TFE浓度。spathella的含氟聚合物涂层的存在,确保其疏水性,由XPS结果证实。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrophobization of cellulose spathellas obtained from Sosnowsky hogweed stem with solutions of tetrafluoroethylene telomers
The process of obtaining cellulose from the Sosnowsky hogweed stem and spathellas from this cellulose is described in detail. The task is relevant from the point of view of the use of this weed. The elemental composition and properties of the obtained cellulose samples were studied by elemental analysis, infrared (IR) spectroscopy, X-ray powder diffractometry, differential scanning calorimetry (DSC), and X-ray photoelectron spectroscopy (XPS). The study of IR spectra and X-ray patterns of cellulose made it possible to determine the degree of its crystallinity (65…75 %). The glass transition temperature (105…108 °C) of the samples was estimated from the results of DSC. A comparative analysis of the characteristics of the obtained cellulose with the available literature data was carried out. The treatment of spathellas obtained from cellulose with solutions of radiation-synthesized tetrafluoroethylene (TFE) telomers made it possible to obtain a hydrophobic material with a contact angle exceeding 140°. For hydrophobization, we used TFE telomers synthesized in acetone, the binary solvent Freon 113 + ammonia, and Flutec PP3, which have different terminal groups. It has been established that the interfacial angle of the surface of a cellulose spathella treated with telomers depends both on the composition (end groups) of the telomer and on the initial concentration of TFE at which the synthesis was carried out. The optimal concentration of TFE for the synthesis of telomers in Flutec PP3 has been determined. The presence of a fluoropolymer coating of the spathella, which ensures its hydrophobicity, was confirmed by XPS results.
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