介绍了几种天然超疏水生物表面的研究进展,包括蛾翅膀、蝉翼、蝴蝶翅膀、白蚁翅膀、甲虫,蚊子的腿、翅及其复眼,水黾的腿部和荷叶的表面.对现有的仿生超疏水材料的制备方法及常用作表面修饰的低表面能材料做了简单的归纳与总结.对超疏水材料研究面临的挑战及以后的发展趋势做了展望.
参考文献
| [1] | (O)ner D,McCarthy T J.Ultrahydrophobic Surfaces:Effects of Topography Length Scales on Wettability[J].Langmuir,2000,16(20):7777-7782. |
| [2] | Onda T,Shibuichi S,Satoh N,et al.Super-Water-Repellent Fractal Surfaces[J].Langmuir,1996,12 (9):2125-2127. |
| [3] | Shibuichi S,Onda T,Satoh N,et al.Super Water-Repellent Surfaces Resulting from Fractal Structure[J].J Phys Chem,1996,100(50):19512-19517. |
| [4] | Parkin I P,Palgrave R G.Self-cleaning Coatings[J].J Mater Chem,2005,15 (17):1689-1695. |
| [5] | Erbil H Y,Demirel A L,Avci Y,et al.Transformation of a Simple Plastic into a Superhydrophobic Surface[J].Science,2003,299 (5611):1377-1380. |
| [6] | Li S H,Li H J,Wang X B,et al.Super-Hydrophobicity of Large-Area Honeycomb-Like Aligned Carbon Nanotubes[J].J Phys Chem B,2002,106(36):9274-9276. |
| [7] | Sun T L,Wang G J,Liu H,et al.Control over the Wettability of an Aligned Carbon Nanotube Film[J].J Am Chem Soc,2003,125 (49):14996-14997. |
| [8] | Sun T L,Feng L,Gao X F,et al.Bioinspired Surfaces with Special Wettability[J].Acc Chem Res,2005,38 (8):644-652. |
| [9] | Lau K K S,Bico J,Teo K.Superhydrophobic Carbon Nanotube Forests[J].Nano Lett,2003,3 (12):1701-1705. |
| [10] | GAO Xuefeng,JIANG Lei.Recent Studies of Natural Superhydophobic Bio-surfaces[J].Physics,2006,35 (7):559-564 (in Chinese).高雪峰,江雷.天然超疏水生物表面研究的新进展[J].物理,2006,35(7):559-564. |
| [11] | GUO Zhiguang,LIU Weimin.Progress in Biomimicing of Super Hydrophobic Surface[J].Prog Chem,2006,18(6):721-726(in Chinese).郭志光,刘维民.仿生超疏水性表面的研究进展[J].化学进展,2006,18(6):721-726. |
| [12] | Wang X J,Cong Q,Zhang J J,et al. Multivariate Coupling Mechanism of Noctuidae Moth Wings' Surface Superhydrophobicity[J].Chinese Sci Bull,2009,54(4):569-575. |
| [13] | Zhang G M,Zhang J,Xie G Y,et al.Cicada Wings:A Stamp from Nature for Nanoimprint Lithography[J].Small,2006,2(12):1440-1443. |
| [14] | Lee W,Jin M K,Yoo W C,et al.Nanostructuring of a Polymeric Substrate with Well-Defined Nanometer-Scale Topography and Tailored Surface Wettability[J].Langmuir,2004,20(18):7665-7669. |
| [15] | Sun M X,Watson G S,Liang A P,et al.Wetting Properties on Nanostructured Surfaces of Cicada Wings[J].J Exp Biol,2009,212(19):3148-3155 |
| [16] | Fang Y,Sun G,Wang T Q,et al.Hydrophobicity Mechanism of Non-smooth Pattern on Surface of Butterfly Wing[J].Chinese Sci Bull,2007,52(5):711-716. |
| [17] | Cong Q,Chen G H,Fang Y,et al.Study on the Super-hydrophobic Characteristic of Butterfly Wing Surface[J].J Bionics Eng,2004,1(4):249-255. |
| [18] | Watson G S,Cribb B W,Watson J A.How Micro/Nanoarchitecture Facilitates Anti-Wetting:An Elegant Hierarchical Design on the Termite Wing[J].ACS NANO,2010,4(1):129-136. |
| [19] | Andrew R P,Chris R L.Water Capture by a Desert Beetle[J].Nature,2001,414(6859):33-34. |
| [20] | ZHANG Xinru,JIANG Zeyi,ZHANG Xinxin.Desert Beetle and Water Extraction from Air[J].Sci Technol,2006,24 (2):18-21 (in Chinese).张欣茹,姜泽毅,张欣欣.沙漠甲虫Stenocara与空气取水[J].科技导报,2006,24(2):18-21. |
| [21] | CHEN Jinxiang,GUAN Sujun,WANG Yong.Progress in Structural Biomimetic Research on Forewing of Beetles[J].Acta Mater Compos Sin,2010,27 (3):1-9 (in Chinese).陈锦祥,关苏军,王勇.甲虫前翅结构及其仿生研究进展[J].复合材料学报,2010,27(3):1-9. |
| [22] | SHI Yanlong,FENG Xiaojuan,YANG Wu,et al. Large Yellow Spot Mosquitos Favor Humid Conditions and Display Superhydrophobic Properties on Their Wings and Legs[J].Chinese Sci Bull,2011,56 (16):1241-1245 (in Chinese).石彦龙,冯晓娟,杨武,等.黄斑大蚊的喜湿性及其翅膀、腿表面的超疏水性[J].科学通报,2011,56(16):1241-1245. |
| [23] | KONG Xiangqing,WU Chengwei.Superior Water Repellency of Mosquito Legs with Hierarchical Micro-nano Structures[J].Chinese Sci Bull,2010,55(16):1589-1594(in Chinese).孔祥清,吴承伟.蚊子腿表面多级微纳结构的超疏水特性[J].科学通报,2010,55(16):1589-1594. |
| [24] | Gao X F,Yan X,Yao X,et al.The Dry-style Antifogging Properties of Mosquito Compound Eyes and Artificial Analogues Prepared by Soft Lithography[J].Adv Mater,2007,19(17):2213-2217. |
| [25] | YAO Yuxing,YAO X i,ZHENG Yongmei,et al.Investigation on Microstructure and Wettability of Mosquito's Body Surface[J].Chem J Chinese Univ,2008,29(9):1826-1828 (in Chinese).姚昱星,姚希,郑咏梅,等.蚊子体表面的微纳米结构与浸润性[J].高等学校化学学报,2008,29(9):1826-1828. |
| [26] | Gao X F,Jiang L,Jiang L.Water-repellent Legs of Water Striders[J].Nature,2004,432(7013):36. |
| [27] | Barthlott W,Neinhuis C.Purity of the Sacred Lotus,or Escape from Contamination in Biological Surfaces[J].Planta,1997,202(1):1-8. |
| [28] | Feng L,Li H S,Jiang L,et al.Super-hydrophobic Surfaces:From Natural to Artificial[J].Adv Mater,2002,14(24):1857-1860. |
| [29] | Sun M H,Luo C X,Xu L P,et al.Artificial Lotus Leaf by Nanocasting[J].Langmuir,2005,21(19):8978-8981. |
| [30] | Feng L,Li S H,Li H J,et al.Super-hydrophobic Surface of Aligned Polyacrylonitrilc Nanofibers[J].Angew Chem Int Ed,2002,41(7):1221-1223. |
| [31] | Xie Q D,Fan G Q,Zhao N,et al.Facile Creation of a Bionic Super-hydrophobic Block Copolymer Surface[J].Adv Mater,2004,16 (20):1830-1833. |
| [32] | Han J T,Lee D H,Ryu C Y,et al.Fabrication of Superhydrophobic Surface from a Supramolecular Organosilane with Quadruple Hydrogen Bonding[J].JAm Chem Soc,2004,126(15):4796-4797. |
| [33] | Zhang X,Shi F,Yu X,et al.Polyelectrolyte Multilayer as Matrix for Electrochemical Deposition of Gold Clusters:Toward Super-Hydrophobic Surface[J].JAm Chem Soc,2004,126(10):3064-3065. |
| [34] | Shirtcliffe N J,McHale G,Newton M I,et al.Dual-scale Roughness Produces Unusually Water-repellent Surfaces[J].Adv Mater,2004,16(21):1929-1932. |
| [35] | Jiang L,Zhao Y,Zhai J.A Porous Microsphere/Nanofiber Composite Film Preppared by Electro-hydrodynamics[J].Angew Chem Int Ed,2004,43 (33):4338-4341. |
| [36] | Huang Z M,Zhang Y Z,Kotaki M,et al.A Review on Polymer Nanofibers by Electrospinning and Their Applications in Nanocomposites[J].Compos Sci Technol,2003,63 (15):2223-2253. |
| [37] | Deitzel J M,Kleinmeyer J,Harris,et al.The Effect of Processing Variables on the Morphology of Electrospun Nanofibers and Textiles[J].Polymer,2001,42(1):261-272. |
| [38] | He B,Patankar N A,Lee J.Multiple Equilibrium Droplet Shapes and Design Criterion for Rough Hydrophobic Surfaces[J].Langmuir,2003,19(12):4999-5003. |
| [39] | Frosnais J,Chapel J P,Poncin-Epaillard F.Synthesis of Transparent Superhydrophobic Polyethylene Surfaces[J].Surf Coat Technol,2006,200 (18/19):5296-5305. |
| [40] | Feng X J,Zhai J,Jiang L.The Fabrication and Switchable Superhydrophobicity of TiO2 Nanorod Films[J].Angew Chem Int Ed,2005,44(32):5115-5118. |
| [41] | GUO Zhiguang,ZHOU Feng,LIU Weimin.Preparation of Biomimetic Superhydrophobic Silica Film by Sol-gel Technique[J].Acta Chim Sin,2006,64(8):761-766(in Chinese).郭志光,周峰,刘维民.溶胶凝胶法制备仿生超疏水性薄膜[J].化学学报,2006,64(8):761-766. |
| [42] | Tsujii T,Yamamoto T,Onda T,et al.Super Oil-repellent Surfaces[J].Angew Chem Int Ed Engl,1997,36(9):1011-1012 |
| [43] | Hozumi A,Takai O.Preparation of Ultra Water Repellent Films by Microwave Plasma-enhanced CVD[J].Thin Solid Films,1997,303 (1/2):222-225. |
| [44] | Morra M,Occhiello E,Garbassi F.Contact Angle Hysteresis in Oxygen Plasma Treated Poly (tetrafluoroethylene)[J].Langmuir,1989,5(3):872-876. |
| [45] | Youngblood J P,McCarthy T J.Ultrahydrophobic Polymer Surfaces Prepared by Simultaneous Ablation of Polypropylene and Sputtering of Poly(tetrafluoroethylene) Using Radio Frequency Plasma[J].Macromolecules,1999,32(20):6800-6806. |
| [46] | Hou X M,Zhou F,Yu B,et al.Superhydrophobic Zinc Oxide Surface by Differential Etching and Hydrophobic Modification[J].Mater Sci Eng A,2007,452/453:732-736. |
| [47] | Wang S T,Feng L,Jiang L.One-step Solution-immersing Process for Fabrication of Stable Bionic Superhydrophobic Surfaces[J].Adv Mater,2006,18 (6):767-770. |
| [48] | Feng X J,Feng L,Jin M H,et al. Reversible Super-hydrophobicity to Super-hydrophilicity Transition of Aligned ZnO Nanorod Films[J].J Am Chem Soc,2004,126(1):62-63. |
| [49] | Sun T L,Wang G J,Feng L,et al.Reversible Switching Between Super-hydrophilicity and Super-hydrophobicity[J].A ngew Chem Int Ed,2004,43(3):357-360. |
| [50] | Shi F,Wang Z Q,Zhang X.Combining a Layer-by-Layer Assembling Technique with Electrochemical Deposition of Gold Aggregates to Mimic the Legs of Water Striders[J].Adv Mater,2005,17 (8):1005-1009. |
| [51] | Krupenkin T N,Taylor J A,Schneider T M,et al.From Rolling Ball to Complete Wetting:The Dynamic Tuning of Liquids on Nanostructured Surfaces[J].Langmuir,2004,20(10):3824-3827. |
| [52] | Zhang J L,Li J,Han Y C.Superhydrophobic PTFE Surfaces by Extension[J].Macromol Rapid Commun,2004,25(11):1105-1108. |
| [53] | Xin B W,Hao J C.Reversibly Switchable Wettability[J].Chem Soc Rev,2010,39 (2):769-782. |
| [54] | Jin M H,Feng X J,Feng L,et al.Super-hydrophobic Aligned Polystyrene Nanotubes Film with High Adhesive Force[J].Adv Mater,2005,17(16):1977-1981. |
| [55] | Li M,Zhai J,Liu H,et al.Electrochemical Deposition of Conductive Superhydropbobic Zinc Oxide Tbin Films[J].J Phys Chem B,2003,107 (37):9954-9957. |
| [56] | Guo Z G,Zhou F,Hao J C,et al.Stable Biomimetic Super-Hydrophobic Engineering Materials[J].J Am Chem Soc,2005,127 (45):15670-15671. |
| [57] | Shibuichi S,Yamamoto T,Onda T,et al.Super Water-and Oil-Repellent Surfaces Resulting from Fractal Structure[J].J Colloid Interface Sci,1998,208(1):287-294. |
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