ZnO/E-51复合涂料上超疏水表面的制备

采用ZnO和环氧树脂机械搅拌制备ZnO/E-51复合涂料,通过真空袋压、室温固化成型,再通过化学刻蚀与表面修饰,在ZnO/E-51复合涂料上制备出超疏水表面。采用扫描电镜和动/静态接触角分析仪,表征表面的形貌和疏水性。结果表明化学刻蚀在复合涂料表面构建了具有微-纳米尺度二元粗糙结构;采用1%(质量分数)的硬脂酸修饰,可改变复合涂料表面微-纳米尺度二元粗糙结构,影响表面的疏水性能,当修饰时间为30min时,其表面与水的平均接触角最高达152.21°。     

Highly Stretchable Superhydrophobic Composite Coating Based on Self‐Adaptive Deformation of Hierarchical Structures

With the rapid development of stretchable electronics, functional textiles, and flexible sensors, water‐proof protection materials are required to be built on various highly flexible substrates. However, maintaining the antiwetting of superhydrophobic surface under stretching is still a big challenge since the hierarchical structures at hybridized micro‐nanoscales are easily damaged following large deformation of the substrates. This study reports a highly stretchable and mechanically stable superhydrophobic surface prepared by a facile spray coating of carbon black/polybutadiene elastomeric composite on a rubber substrate followed by thermal curing. The resulting composite coating can maintain its superhydrophobic property (water contact angle ≈170° and sliding angle <4°) at an extremely large stretching strain of up to 1000% and can withstand 1000 stretching–releasing cycles without losing its superhydrophobic property. Furthermore, the experimental observation and modeling analysis reveal that the stable superhydrophobic properties of the composite coating are attributed to the unique self‐adaptive deformation ability of 3D hierarchical roughness of the composite coating, which delays the Cassie–Wenzel transition of surface wetting. In addition, it is first observed that the damaged coating can automatically recover its superhydrophobicity via a simple stretching treatment without incorporating additional hydrophobic materials.     

Fabrication of superhydrophobic and oleophobic zinc coating on steel surface

In this work, a simple method, including electrodeposition and chemical modification, for fabrication of a superhydrophobic and oleophobic coating on steel substrate is reported. The surface morphology of this coating showed concave structure, and the contact angles of water and glycerol on this coating surface were about 153.57° and 149.32°, respectively. In addition, the water droplet was easy to roll on this coating surface, and the sliding angle was smaller than 10°. The contact angle of the water/ethanol droplet with different surface tension, from 56 to 36?mN?m^?1, was also >130° on this coating surface, indicating this as superhydrophobic and oleophobic coating surface with good lyophobicity. Moreover, this coating surface had excellent non-sticking property for the water droplet under a certain external pressure, self-cleaning property and long-term stability.     

Conformal ZnO nanocomposite coatings on micro-patterned surfaces for superhydrophobicity

A conformal coating process is presented to transform surfaces with inherent micro-morphology into superhydrophobic surfaces with hierarchical surface structure using wet chemical spray casting. Nanocomposite coatings composed of zinc oxide nanoparticles and organosilane quaternary nitrogen compound are dispersed in solution for application. The coating is applied to a micro-patterned polydimethylsiloxane substrate with a regular array of cylindrical microposts as well as a surface with random micro-structure for the purpose of demonstrating improved non-wettability and a superhydrophobic state for water droplets. Coating surface morphology is investigated with an environmental scanning electron microscope and surface wettability performance is characterized by static and dynamic contact angle measurements.     

纳米SiO2@超支化PDMS复合超疏水涂层的制备与性能调控

超疏水涂层在实际应用中受化学腐蚀、刮擦磨损等外界环境的影响,易造成涂层老化、开裂甚至脱落,造成涂层失效。因此,针对这一问题,设计出具备耐候性的自修复超疏水表面：以超支化聚二甲基硅氧烷为柔性基底和低表面能物质,引入纳米二氧化硅构筑表面粗糙结构,制备超疏水涂层。当SiO₂粒径为50 nm、固含量为30wt%时,得到了接触角为154.87°的超疏水涂层。经过5次胶带剥离试验,涂层表现出良好的机械稳定性。经历10次温差循环试验和24 h紫外光照射后,涂层表面接触角仍大于150°,表明涂层具有良好的耐候性。涂层经过80℃、2 h的热处理可修复划痕,表明该涂层具有一定的自修复功能。同时,Tafel及Nyquist测试结果表明,对基底进行超疏水处理可显著提高防腐性能,并且该涂层具有明显的自清洁效果。综上所述,本文所制备的纳米SiO₂@超支化聚二甲基硅氧烷(PDMS)复合超疏水涂层具有自修复功能,为自修复超疏水涂层的开发提供了新的研究策略。     

阳极氧化法制备铝基超疏水涂层及其稳定性和耐蚀性的研究

铝由于在潮湿的环境中很容易受到污染和损坏,从而严重影响了其美观性和用途。为了改善铝基材料的耐腐蚀性能,采用电化学阳极氧化法与十四酸修饰相结合的方式在铝基底上制备了超疏水涂层。通过场发射扫描电镜(FESEM)和X射线能量色散光谱(EDS)对涂层表面形貌和化学组成进行了表征。同时利用接触角测量仪、喷砂实验和电化学测试分别对涂层表面的润湿性、机械稳定性以及耐腐蚀性能进行了研究。结果表明:当阳极氧化电压为20V时,所制备的涂层为最佳铝基超疏水涂层,此时涂层的接触角为(155.2±0.5)°,滚动角为(3.5±1.3)°。其对应的腐蚀电流密度较铝基底降低了2个数量级,腐蚀电位从-0.629V正移到-0.570V,呈现出优异的耐腐蚀性能。此外,该涂层还具有良好的机械稳定性。     

海泡石超疏水复合涂层的制备和性能

在不同条件下在有机化改性的海泡石粉体悬浮液中加入表面活性剂进行偶联改性,然后进行超声、离心脱水、洗涤、干燥和研磨制得粉体,再使用无水乙醇和分散制成涂料,将涂料涂敷于载玻片表面制备出海泡石超疏水涂层。使用OCA 20接触角测试仪测试涂层与水的接触角(CA)和滚动角(SA),使用BRUKER-80v傅里叶红外光谱仪分析改性前后的粉体表面官能团的结构,用ESCALAB 250XI X射线光电子能谱仪分析改性前后粉体表面元素的状态变化,用Nova Nano SEM450扫描电镜和JEM-1230透射电镜观察改性前后的粉体的微观形貌,研究了海泡石超疏水复合涂层的性能。结果表明：当改性剂十六烷基三甲氧基硅烷添加量为0.8 mL、海泡石添加量为1.00 g、在0℃改性3 h时,涂层的接触角为157.2°,滚动角为10.5°。海泡石表面吸附二氧化硅颗粒后,构筑了表面粗糙结构并被十六烷基三甲氧基硅烷长链烷基接枝。涂层对水滴的粘附力随着水滴体积的增大先快速减小然后缓慢减小,涂层对水滴的粘附力较小,有助于水滴在涂层上滚动而使其具有良好的自清洁性能。     

硬脂酸改性镁合金铈钒转化膜的制备与性能

采用硬脂酸对镁合金铈钒转化膜进行改性处理。利用扫描电镜、接触角测试仪、X射线能谱仪和红外光谱仪对改性膜层的微观结构、表面润湿性能以及化学组成进行分析,并通过防黏附和电化学实验研究膜层的自清洁行为以及耐腐蚀性能。结果表明:硬脂酸对铈钒转化膜的改性处理,不仅对转化膜的裂纹起到修补作用,并且通过接枝硬脂酸的疏水长链使改性膜层表面转化为超疏水性。8h常温浸泡后得到的改性膜层,表面接触角达154.6°,并表现出良好的自清洁性;耐腐蚀能力与原铈钒转化膜相比,膜层电阻R_(coat)提高25倍,自腐蚀电流密度i_(corr)降低2个数量级,其耐蚀性能得到显著提升。     

Design of submicron structures with superhydrophobic and oleophobic properties on zinc substrate

A superhydrophobic and oleophobic surface was demonstrated on Zn substrate via a composite method using chemical etching, hydrothermal reaction, and fluorinated modification. The surface morphology with aligned ZnO rods that grew almost perpendicularly on Zn substrate and had flat hexagonal crystallographic planes played a key role in the achievement of the superhydrophobicity and oleophobicity. The Zn surface with aligned ZnO rods was then made superhydrophobic and oleophobic with maximum distilled water and peanut oil contact angles (CAs) of 152° and 146°, respectively, by further fluorinated modification, and the sliding angle (SA) for distilled water was less than 10°. Moreover, on the basis of the classical models (Wenzel's and Cassie's model), an improved model was established to analyze the influence of the surface morphology on the wettability. The effect of the experimental parameters including the hydrothermal temperature and the concentration of the chemical etching agent on the surface morphology and the wettability were examined, and then the optimum parameters were obtained. This method is simple and inexpensive, and has potential application in depositing Zn coating that can provide both corrosion resistance and oleophobicity to the substrate metals.     

Modification of nanostructured fused silica for use as superhydrophobic,IR-transmissive,anti-reflective surfaces

In order to mimic and enhance the properties of moth eye-like materials, nanopatterned fused silica was chemically modified to produce self-cleaning substrates that have anti-reflective and infrared transmissive properties. The characteristics of these substrates were evaluated before and after chemical modification. Furthermore, their properties were compared to fused silica that was devoid of surface features. The chemical modification imparted superhydrophobic character to the substrates, as demonstrated by the average water contact angles which exceeded 170°. Finally, optical analysis of the substrates revealed that the infrared transmission capabilities of the fused silica substrates (nanopatterned to have moth eye on one side) were superior to those of the regular fused silica substrates within the visible and near-infrared region of the light spectrum, with transmission values of 95% versus 92%, respectively. The superior transmission properties of the fused silica moth eye were virtually unchanged following chemical modification.     

铝合金表面超疏水涂层的火焰喷雾热解法制备及其耐蚀性能

采用火焰喷雾热解与表面修饰相结合的方法在铝合金表面制备了具有一定耐蚀性能的超疏水表面。以六甲基二硅氧烷溶液为前驱液,通过火焰喷雾热解方法,首先在铝合金表面沉积SiO2纳米颗粒构建粗糙结构,再以氟硅烷溶液进行表面修饰,获得了具有154.9°静态接触角,滚动角<2°的超疏水表面。通过电化学测试,对比了构筑超疏水表面前后的铝合金样品的耐蚀性能。结果表明沉积层与低表面能物质协同作用,通过对腐蚀性离子的有效隔离,提高了铝合金基体的耐蚀性能。     

喷涂法一步制备绿色超疏水白卡纸

目的 为改变纸张表面与水之间的相互作用,提高纸包装材料的抗水性,扩大纸包装的应用范围.方法 采用 γ-氨丙基三乙氧基硅烷(KH550)和聚二甲基硅氧烷(PDMS)对纳米二氧化硅进行疏水改性,然后将改性后的纳米二氧化硅喷涂在白卡纸表面.采用扫描电镜和X射线能谱对喷涂处理后白卡纸的表面形貌和元素组成进行分析,并对其性能进行考察.结果 喷涂后的白卡纸表面具有微纳粗糙结构,表面接触角为156.3°,滚动角为3.5°,具备了超疏水性能.制备的超疏水白卡纸具有优良的自清洁、防污、耐酸碱、耐高低温和牢固度等性能.结论 制备的超疏水白卡纸可用于多种包装场景,大大扩展了白卡纸的应用范围,并且制备过程操作简单,易于实现工业化.     

One-step electrochemical machining of superhydrophobic surfaces on aluminum substrates

A superhydrophobic surface on an aluminum substrate was fabricated by one-step electrochemical machining using the sodium chloride (NaCl) aqueous solution containing fluoroalkylsilane as the electrolyte. The resulting superhydrophobic surfaces showed a static water contact angle of 166° and a tilting angle of about 1°. The morphological features and chemical compositions were characterized by scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDS), electron probe micro-analyzer (EPMA), and Fourier-transform infrared spectrometer (FTIR). It shows that the binary micrometer–nanometer-scale rough structures and the low surface energy coating were present on the aluminum surfaces. The resulting surfaces have good properties of anti-adhesion and self-cleaning. The durability of the superhydrophobic surfaces on aluminum substrates was also investigated. This preparation method is advantageous as it does not require acid electrolyte or a separate process to lower the surface energy, uses simple steps, and is environmental friendly and highly efficient.     

MB8镁合金超疏水表面的制备和润湿性

通过激光加工在MB8镁合金表面构造具有规则结构的纹理,再制备1H,1H,2H,2H-全氟葵烷基三氯硅烷(FDTS)自组装分子膜,从而构建了MB8镁合金超疏水表面。用扫描电子显微镜和接触角测量仪观察和测量试样表面的形貌和润湿性。结果表明,激光加工在试样表面构造的粗糙结构和低表面能物质FDTS自组装分子膜使该试样具有超疏水性;经激光加工和沉积自组装分子膜后,MB8镁合金试样表面对水的接触角显著增大(达到150°以上)。将MB8镁合金超疏水表面加工成漂浮平台,承载能力的测试结果表明,超疏水平台的漂浮承载能力明显比非超疏水性平台的大,平台的承载能力与接触角的数值成正比。理论计算结果和"气垫"的存在表明,该超疏水表面符合Cassie-Baxter。状态模型,对接触角理论值与测量值的分析表明分级粗糙结构对超疏水表面构建有重要作用。     

Highly transparent, flexible, and thermally stable superhydrophobic ORMOSIL aerogel thin films

We report preparation of highly transparent, flexible, and thermally stable superhydrophobic organically modified silica (ORMOSIL) aerogel thin films from colloidal dispersions at ambient conditions. The prepared dispersions are suitable for large area processing with ease of coating and being directly applicable without requiring any pre- or post-treatment on a variety of surfaces including glass, wood, and plastics. ORMOSIL films exhibit and retain superhydrophobic behavior up to 500 °C and even on bent flexible substrates. The surface of the films can be converted from superhydrophobic (contact angle of 179.9°) to superhydrophilic (contact angle of <5°) by calcination at high temperatures. The wettability of the coatings can be changed by tuning the calcination temperature and duration. The prepared films also exhibit low refractive index and high porosity making them suitable as multifunctional coatings for many application fields including solar cells, flexible electronics, and lab on papers.     

环保超疏水防潮瓦楞纸箱的制备及性能研究

目的 针对瓦楞纸箱易受潮而使其失去原有性能的问题,对其进行超疏水防潮改性,并研究改性方法对其性能的影响。方法 通过真空吸附涂布的方式,采用具有低表面能的硬脂酸与可构建表面粗糙度的纳米二氧化硅粒子结合,再引入聚二甲基硅氧烷增强涂层与纸板之间粘合力的方法制备超疏水防潮纸箱,对其进行润湿性和力学性能的表征。结果 改性后的纸板水接触角可达到150°以上,水分吸附率大幅降低,在此基础之上其边压强度未受到不良影响,且耐磨性能优良。结论 文中所述超疏水涂层的制备工艺简单,材料绿色环保,所得纸箱防潮性能、力学性能良好。     

碱式硫酸镁晶须复合SiO2纳米粒子制备高/低黏附性超疏水涂层

超疏水材料因性能独特,应用前景广阔而被广泛关注。本文采用碱式硫酸镁晶须(MOSWs)与二氧化硅纳米粒子制备超疏水涂层,首先对MOSWs及50 nm、500 nm SiO₂进行表面改性以降低表面能,然后基于混料实验将三者按比例混合以构造表面粗糙度,以接触角、滚动角及平均粗糙度R_a为响应变量建立回归模型,分析了混合分量的形貌、尺寸与混合比例对响应变量的影响,并探讨了超疏水涂层微观结构对水滴黏附性的影响以及粗糙度与超疏水性能之间的关系。结果表明：MOSWs复合SiO₂纳米粒子可制备具有不同黏附性的超疏水涂层,单独使用MOSWs可制备高黏附性超疏水涂层,其接触角达152.59°,涂层水平倒置水滴不滴落;而MOSWs与50 nm SiO₂以相同质量分数混合,可制备低黏附性超疏水涂层,其接触角达163.25°,滚动角可趋近0°。所制备涂层的平均粗糙度R_a值位于5～10μm之间时,接触角较大,滚动角较小,超疏水性能较佳。     

PVDF/SiO2/PDMS涂层超疏水纺织品性能

目的 针对普通纺织品材料防水性和防污性较差的问题,制备具有自清洁功能的超疏水涂层纺织品,并研究其性能.方法 以涤纶织物为基材,通过非溶剂诱导相分离法,使用聚偏氟乙烯和疏水纳米二氧化硅复合液在纺织品表面构筑微纳粗糙结构,采用聚二甲基硅氧烷对其进行疏水化处理,获得自清洁超疏水涂层纺织品.采用扫描电子显微镜、X射线能量散射光谱和视频光学接触角测量仪等对其结构和性能进行表征,并通过机械摩擦、洗涤、酸/碱/盐溶液浸渍和紫外光照等方法对其表面超疏水稳定性进行考察.结果 当聚偏氟乙烯质量分数为2％,疏水纳米二氧化硅质量分数为0.4％,聚二甲基硅氧烷质量分数为1％时,制备的纺织品的表面接触角可达(162.2°±0.8°),滚动角达(2.0°±0.4°),具有优异的超疏水自清洁效应;经72 h酸/碱/盐溶液浸渍、196 h紫外光照、2500次摩擦和120次家庭水洗后,其表面接触角仍大于150°,表现出优异的超疏水稳定性.结论 采用简便的非溶剂相分离法制备的涂层纺织品具有优异的自清洁性能,并且其超疏水性能具有机械耐久性和化学稳定性,有望应用于纺织材料包装领域.     

Effect of substrates on the chemical characteristics and evolving structures of an organic superhydrophobic coating

While recent research has used organic coatings to replace chromium-based coatings, the ability of a coating material to repeat its chemical properties on different substrates is still under investigation. The Repellix superhydrophobic compound was developed and deposited on three different substrates using the atomic layer deposition method under the same condition. The films were characterized using the scanning electron microscope, atomic force microscope, water contact angle, attenuated Fourier transform infrared, and x-ray diffractometer. The surface morphology revealed that microstructural evolutions and topologies are different. The roughness of the coating deposited on stainless steel is the highest at 38.39 nanometers, while mild steel substrate showed the least surface roughness at 28.66 nanometers. From observations, the roughness also contributed to the degree of superhydrophobicity of the films deposited on substrates. The multiple hydroxyl functional groups observed in the Fourier transform spectroscopy in the range 3200 cm⁻¹ to 4000 cm⁻¹ would aid the adhesion of deposited films to the substrates. The x-ray diffraction results showed that all substrates had chemical stability, and the Repellix compound is amorphous on all substrates. Stainless steel showed to be the most robust among the substrates considered.     

CaCO3/SiO2复合粒子涂层的表面结构及其疏水性能研究

以机械高速搅拌法制备了具有草莓结构的CaCO₃/SiO₂复合粒子,并对其进行了表面修饰改性.利用聚硅氧烷的自组装功能,将制备的复合粒子与硅氧烷一起制备了具有“荷叶效应”的超疏水涂层,静态水接触角达169°,滚动角约为2°.通过扫描电镜观察涂层的表面微观形貌,发现该涂层具有微米-纳米相结合的双层粗糙结构.微米凸起的粒径在2～3μm左右,纳米凸起的粒径约为200nm左右,与荷叶具有类似的结构排布方式.通过原子力显微镜和接触角的测试,探讨了表面微观结构、涂层粗糙度和涂层疏水性能之间的关系.结果表明：复合粒子构成的非均相界面的水接触角符合Cassie模型.复合粒子赋予涂层的双微观粗糙结构与自组装成膜硅氧烷的低表面能的协同效应,使涂层具有了优良的超疏水性能.