摘要
超疏水材料以其出色的防渗透性和自清洁特性,为油水分离和污染物吸附等领域提供了新的解决方案。但在实际应用中,超疏水材料在疏水性、稳定性和经济性等方面仍面临诸多挑战。本研究简述了超疏水表面的原理,回顾了石墨烯基超疏水材料的特性及其在油水分离、污染物吸附等领域的应用现状,详细介绍了超疏水材料制备技术的最新研究进展,涵盖了层层自组装法、刻蚀法、涂覆法和沉积法等,并重点分析了不同宏观结构对材料油水分离性能的影响。分析表明,未来研究应着力于优化材料结构设计以提高疏水性能,开发低成本规模化制备工艺,同时增强材料的环境稳定性,旨在推动石墨烯基超疏水材料在油污处理领域的更深层次应用,为生态环境保护和可持续发展提供理论支持和技术指导。
Superhydrophobic materials,with their excellent water repellency and self-cleaning properties,show great potential for applications in oil-water separation and pollutant adsorption.However,there are still many challenges in terms of hydrophobicity,stability,and cost-effectiveness of such materials in practical applications.This study aims to provide an overview of the theoretical foundations of superhydrophobic surfaces and to review the properties of graphene-based superhydrophobic materials and their progress in applications such as oil-water separation and pollutant adsorption.First,three theoretical models of superhydrophobicity are synthesized in this study.The results show that the key factors to enhance the superhydrophobic properties of materials are to reduce the free energy of the material surface as well as to increase its surface roughness.Graphene,as a nanomaterial with a high specific surface area and easy surface modification,exhibits excellent corrosion resistance and high-strength mechanical properties.In this study,special attention is paid to the fluorination treatment,silane coupling agent modification,and plasma surface modification of graphene material surfaces,to compare these modification methods and analyze the advantages and shortcomings of each method.Physical modification and chemical modification are conducted to reduce the surface energy of the graphene surface and enhance the roughness of the substrate surface,thus enhancing the superhydrophobic properties of the materials.The latest research results of superhydrophobic material preparation techniques are described in detail,covering a variety of preparation methods,such as layer-by-layer self-assembly,etching,coating,and deposition,and the performance advantages and disadvantages of graphene-based superhydrophobic materials prepared by different methods are analyzed in depth.The study focuses on evaluating key factors such as the mechanical properties of the materials and their suitability for large-scale production.This study outlines the mechanism of graphene-based superhydrophobic materials in terms of oil-water separation and oil removal mechanisms,and demonstrates the significant advantages of graphene-based superhydrophobic materials in oil treatment applications through comparative analyses with conventional superhydrophobic materials at multiple levels.Graphene-based superhydrophobic materials are innovatively classified into powder structure,two-dimensional structure represented by membrane,and three-dimensional structure represented by superhydrophobic sponge according to their macroscopic structures.The focus is put on the mechanical strength of different macroscopic structures and their influences on the oil-water separation performance of the materials.Three kinds of materials with each other in a message are compared,and the advantages and shortcomings of different macroscopic structures of graphene-based superhydrophobic materials are summarized.Finally,the 3D-printing-based graphene-based superhydrophobic materials with a three-periodic minimal surface structure,which can help to improve the mechanical properties and durability of the materials,and greatly enhance the specific surface area of the materials,which will greatly enhance the ability of the materials to deal with oil and dirt in practical applications,are envisioned.The analysis suggests that future research should focus on optimizing the structural design of the materials to enhance the hydrophobic properties,developing a low-cost scale-up preparation process,and improving the mechanical properties of the graphene-based superhydrophobic materials to enhance the environmental stability of the materials in practical applications.This will help promote the in-depth application of graphene-based superhydrophobic materials in the field of oil pollution treatment,and provide a theoretical basis and technical support for ecological environmental protection and sustainable development.
作者
董亚鲲
袁帅
张惠宁
张钥
张森
王百祥
DONG Yakun;YUAN Shuai;ZHANG Huining;ZHANG Yue;ZHANG Sen;WANG Baixiang(School of Civil and Hydraulic Engineering,Lanzhou University of Technology,Lanzhou 730050,China;CCCC Second Highway Consultants Co.,Ltd.,Wuhan 430056,China;CCCC Urban and Rural Planning and Design Research Institute Co.,Ltd.,Wuhan 430056,China)
出处
《表面技术》
北大核心
2026年第2期182-193,共12页
Surface Technology
关键词
超疏水材料
石墨烯
油污去除
吸附
纳米材料
superhydrophobic materials
graphene
oil removal
adsorption
nanomaterials
