纳米纤维素-氧化石墨烯混合气凝胶用于水净化

Q2 Agricultural and Biological Sciences
Jie Wei, Shi Gui, Junqing Wu, Dandan Xu, Yun Sun, Xiaoying Dong, Yang Dai, Yongfeng Li
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引用次数: 9

摘要

不可再生资源的枯竭和工业废水的污染是人类安全面临的重大挑战。利用绿色可再生资源解决上述问题,与人类社会的可持续发展不谋而合。在本研究中,我们致力于设计由纳米纤维素和氧化石墨烯(GO)制成的混合气凝胶,利用其高比表面积和高孔隙率的特性,通过吸附行为来实现废水净化。从紫穗槐中分离的纳米纤维素。以灌木植物和氧化石墨烯为原料,通过冷冻干燥法制备混合气凝胶;考察了其对废水中亚甲基蓝(MB)、刚果红(CR)和废油的净化能力。结果表明:分离得到的纳米纤维素具有丰富的羟基,宽高比约500,平均直径约30 nm,分布在边长约1~3 μm的氧化石墨烯表面,形成孔隙率大于99%的杂化气凝胶;纳米材料以物理方式组装其原始聚集状态。当纳米纤维素与氧化石墨烯的质量比为8:2时,混合气凝胶对MB和CR的吸附量最高,分别为265.6mg/g和21.5mg/g。疏水处理后的杂化气凝胶表现出优异的油吸附能力,吸附量可达25.6 g/g,有利于油水分离。该策略为纳米纤维素在水净化中提供了潜在的巨大应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nanocellulose-Graphene Oxide Hybrid Aerogel to Water Purification
The depletion of non-renewable resources and pollution of industrial wastewater are major challenges to the human security. Using green renewable resources to address the above problems coincides with the sustainable development of human society. In this study, we attend to design hybrid aerogel, derived from nanocellulose and graphene oxide (GO), to realize wastewater purification via adsorption behavior, benefitting from its high specific surface area and high porosity. Nanocellulose, isolated from Amorpha fruticosa Linn. as a shrub plant, and graphene oxide were combinely employed to prepare the hybird aerogel via freeze-drying process; and its purification ability to remove methylene blue(MB), congo red (CR) and waste oil in waste water was tested. The results indicate that the isolated nanocellulose bears abundant hydroxyl groups and high aspect ratio of ~500 with average diameter of ~30 nm, which is well distributed on the surface of graphene oxide sheet with side length of about 1~3 μm, both of which form the hybrid aerogel with porosity larger than 99%. The nanomaterials physically assemble its orignial aggregation state. When the mass ratio of nanocellulose and graphene oxide is 8 : 2, the hybrid aerogel reaches the highest adsorption capacity of 265.6mg/g and 21.5mg/g for MB and CR, respectively. The hybrid aerogel after hydrophobic treatment shows excellent oil adsorption capacity up to 25.6 g/g, which is beneficial to oil/water separation. This strategy provides potential great-application of the nanocellulose in water purification.
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来源期刊
Applied Environmental Biotechnology
Applied Environmental Biotechnology Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
3.70
自引率
0.00%
发文量
2
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