共查询到18条相似文献,搜索用时 122 毫秒
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频繁发生的石油泄漏事故以及工业含油污水的违规排放不仅造成了巨大的经济损失,而且严重破坏了人类赖以生存的生态环境。为了净化被油污染的水域,研究者们近年来开始研究出了各种特殊润湿性(如超疏水或超疏油)的材料用于实现油水分离。超疏水和超疏油可以通过设计材料表面的微观几何形貌和化学分子组成来获得。通过各种微纳制备手段使材料表现出对油和水截然相反的极端润湿性,是这类材料实现油水分离的关键所在。本文首先阐述了实现油水分离的重要意义,并介绍了材料表面润湿性的相关理论基础。根据材料对水和油所表现出的不同超疏液性与超亲液性,对油水分离材料从以下三类分别介绍:(ⅰ)超疏水/超亲油材料,(ⅱ)超疏油/超亲水材料,(ⅲ)智能响应润湿性材料。对于每一类油水分离材料,本文概括了国际上近期相关的代表性研究工作,包括材料的制备方法和实现油水分离的原理和过程,以及这些材料的主要特点和应用。最后,针对基于特殊润湿性材料实现油水分离,探讨了该研究领域目前存在的主要问题和面临的挑战,并对该领域的应用前景进行了展望。 相似文献
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含油污水的随意排放对海洋、沿海周边环境以及人类健康造成了严重的影响。传统的油水分离方法易造成环境二次污染,同时也是对有限资源的一种损耗。因此,如何高效环保地解决含油污水问题具有重要意义。物理过滤/吸附法被认为是一种高效环保的分离方法,基于仿生学原理,许多可用于物理选择性分离的超亲油疏水和超亲水疏油材料被制备出来。超亲油疏水材料易被油污染,重复利用率低;相比之下,超亲水疏油材料具有自清洁性且重复利用率高,在油水分离方面具有广阔的应用前景。根据基底材料的选择不同,本文综述了金属基以及高分子基超亲水疏油材料的研究现状,总结了其优缺点,并对今后超亲水疏油材料的研究方向和重点进行了展望。 相似文献
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海洋原油泄漏事故的频发以及工业污水排放量的日益增加,给生态环境和人类健康造成了巨大的威胁,因此,开发应用于油水分离的先进材料是重要的研究任务。相较于不混溶的油水混合物,油水乳液(也称为乳化油水)的分离是一个更加艰巨的挑战。本文以分离油水乳液的材料作为研究体系,首先从本质上分析了油水乳液的形成机理以及分离原理,强调了“尺寸筛分”效应和膜破乳技术的重要性;然后从基材的角度全面介绍并讨论了常用于分离乳化油水的先进材料的最新进展,详细阐述了各种不同改性方法在油水分离领域中的应用。对材料进行改性的出发点是“合适的孔径”以及“特殊润湿性能”,并能满足优异的分离能力、渗透能力、抗污染能力、机械能力和稳定性,而这些性能在实际的分离操作中是非常关键的。环境系统在未来会变得越来越复杂,真实环境下的油水乳液大多含有较多的污染物,而且分离条件大多较苛刻,因此油水分离材料需要不断地改进,以满足这样的条件。我们相信,未来能在苛刻条件下高效分离多种油水乳液和其他杂质的多功能性先进材料会有巨大的应用前景。 相似文献
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石油开采和油船运输泄露的油污污染日益突出,使得质轻、亲水疏油的油水分离材料得到广泛关注。本文在无任何添加剂条件下,以三醋酸纤维素(TCA)/N,N-二甲基乙酰胺(DMAc)溶液通过热致相分离(TIPS)制备TCA纳米纤维膜。研究了淬火时间、温度和聚合物浓度等条件对TCA纳米纤维膜形貌的影响。TCA纳米纤维膜的形貌、孔隙率和比表面积通过SEM、乙醇法和N2吸脱附表征。实验结果表明,最佳实验条件为:淬火时间180 min、淬火温度-20℃、聚合物质量分数5%,得到直径为(110±28)nm均匀纤维膜。与块状TCA流延膜相比,TCA纳米纤维膜的高孔隙率和大比表面积以及表面特殊的微/纳结构,使其水接触角由86.2°增加到137.5°。由于高疏水性和亲油性以及强烈的毛细作用,TCA纳米纤维膜的吸油容量达到21.5 g/g,分别是流延膜的20~42倍,且可快速吸收油水混合物中的油层。TCA纳米纤维膜是一种可生物降解的溢油污染清洁材料。 相似文献
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《化学:亚洲杂志》2017,12(16):2085-2092
Inspired by the special asymmetric wettability and controllable permeation function of cell membranes, we report a Janus nanostructured copper mesh film with unidirectional water transportation ability. Water can permeate from the hydrophobic side to the hydrophilic side, but is retained in the opposite direction. Notably, based on this special unidirectional water permeation property, both heavy oil/water mixtures (ρ oil>ρ water) and light oil/water mixtures (ρ oil<ρ water) can be separated. Additionally, the film demonstrates high separation efficiency and good recyclability. This paper reports a new Janus film that achieved highly efficient oil/water separation based on smart control of the wettability of the film. It is believed to have the potential to be used in many practical applications, such as wastewater treatment and oil‐spill cleanup. 相似文献
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Dr. Zonglin Chu Prof. Dr. Yujun Feng Prof. Dr. Stefan Seeger 《Angewandte Chemie (International ed. in English)》2015,54(8):2328-2338
The separation of oil from oily water is an important pursuit because of increasing worldwide oil pollution. Separation by the use of materials with selective oil/water absorption is a relatively recent area of development, yet highly promising. Owing to their selective superantiwetting/superwetting properties towards water and oil, superhydrophobic/superoleophilic surfaces and underwater superoleophobic surfaces have been developed for the separation of oil/water‐free mixtures and emulsions. In this Review, after a short introduction to oil/water separation, we describe the principles of materials with selective oil/water absorption and outline recent advances in oil/water separation with superwetting/superantiwetting materials, including their design, their fabrication, and models of experimental setups. Finally, we discuss the current state of this new field and point out the remaining problems and future challenges. 相似文献
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Chao Liu Su-Hua Chen Chi-Hao Yang-Zhou Qiu-Gen Zhang Ruby N. Michael 《Molecules (Basel, Switzerland)》2021,26(12)
The exploration of nonhazardous nanoparticles to fabricate a template-driven superhydrophobic surface is of great ecological importance for oil/water separation in practice. In this work, nano-hydroxyapatite (nano-HAp) with good biocompatibility was easily developed from discarded oyster shells and well incorporated with polydimethylsiloxane (PDMS) to create a superhydrophobic surface on a polyurethane (PU) sponge using a facile solution–immersion method. The obtained nano-HAp coated PU (nano-HAp/PU) sponge exhibited both excellent oil/water selectivity with water contact angles of over 150° and higher absorption capacity for various organic solvents and oils than the original PU sponge, which can be assigned to the nano-HAp coating surface with rough microstructures. Moreover, the superhydrophobic nano-HAp/PU sponge was found to be mechanically stable with no obvious decrease of oil recovery capacity from water in 10 cycles. This work presented that the oyster shell could be a promising alternative to superhydrophobic coatings, which was not only beneficial to oil-containing wastewater treatment, but also favorable for sustainable aquaculture. 相似文献
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Green Approach to the Fabrication of Superhydrophobic Mesh Surface for Oil/Water Separation 下载免费PDF全文
We report a simple and environment friendly method to fabricate superhydrophobic metallic mesh surfaces for oil/water separation. The obtained mesh surface exhibits superhydrophobicity and superoleophilicity after it was dried in an oven at 200 °C for 10 min. A rough silver layer is formed on the mesh surface after immersion, and the spontaneous adsorption of airborne carbon contaminants on the silver surface lower the surface free energy of the mesh. No low‐surface‐energy reagents and/or volatile organic solvents are used. In addition, we demonstrate that by using the mesh box, oils can be separated and collected from the surface of water repeatedly, and that high separation efficiencies of larger than 92 % are retained for various oils. Moreover, the superhydrophobic mesh also possesses excellent corrosion resistance and thermal stability. Hence, these superhydrophobic meshes might be good candidates for the practical separation of oil from the surface of water. 相似文献
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Na Liu Yuning Chen Fei Lu Yingze Cao Zhongxin Xue Kan Li Prof. Lin Feng Prof. Yen Wei 《Chemphyschem》2013,14(15):3489-3494
A superhydrophilic and underwater superoleophobic Cu(OH)2‐covered mesh with micro‐ and nanoscale hierarchical composite structures is successfully fabricated through a one‐step chemical oxidation of a smooth‐copper mesh. Such mesh, without any further modification, can selectively separate water from oil/water mixtures with high separation efficiency, and possess excellent stability even after 60 uses. This method provides a simple, low‐cost, and scalable strategy for the purification of oily wastewater. 相似文献