| 1 A.Nakajima, K.Hashimoto, T.Watanabe, Recent studies on superhydrophobic films, Monatsh. Chem., 132, 31(2001)
2 X.Gao, L.Jiang, Water–repellent legs of water striders, Nature., 432, 36(2004)
3 T.H.Chen, Y.J.Chuang, C.C.Chieng, F.G.Tseng, A wettability switchable surface by microscale surface morphology change, J. Micromech. Microeng., 17, 489(2007)
4 S.L.Gras, T.Mahmud, G.Rosengarten, A.Mitchell, K.Kalantarzadeh, Intelligent control of surface hydrophobicity, Chem. Phys. Chem., 8, 2036(2007)
5 S.Minko, M.M ller, M.Motornov, Two level structured self–adaptive surfaces with reversibly tunable properties, J. Am. Chem. Soc., 125, 3896(2003)
6 M.S.Dhindsa, N.R.Smith, J.Heikenfeld, Reversible electrowetting of vertically aligned superhydrophobic carbon nanofibers, Langmuir., 22, 9030(2006)
7 X.Yu, Z.Wang, Y.Jiang, F.Shi, X.Zhang, Reversible pH– responsive surface: from superhydrophobicity to superhydrophilicity, Adv. Mater., 17, 1289(2005)
8 J.L.Zhang, J.Li, Y.C.Han, Superhydrophobic PTFE surfaces by extension, Macromol. Rapid. Commun., 25, 1105(2004)
9 J.L.Zhang, X.Y.Lu, W.H.Huang, Y.C.Han, Reversible superhydrophobicity to superhydrophilicity transition by extending and unloading an elastic polyamide Film, Macromol. Rapid. Commun., 26, 477(2005)
10 J.Lahann, S.Mitragotri, T.N.Tran, H.Kaido, J.Sundaram, I.S.Choi, Hoffer, G.A.Somorjai, R.Langer, A reversibly switching surface, Science., 299, 371(2003)
11 X.Wang, A.B.Kharitonov, E.Katz, I.Willner, Potential controlled molecular machinery of bipyridinium monolayer functionalized surfaces, Chem. Commun, 13, 1542(2003)
12 Y.Zhao, Q.Lu, D.Chen, Superhydrophobic modification of polyimide films based on gold–coated porous sliver nanostructures and self–assembled monolayers, Mater. Chem., 16, 4504(2006)
13 J.Xu, M.Li, Y.Zhao, Q.Lu, Control over the hydrophobic behavior of polystrene surface by annealing temperature based on capillary template wetting method, Colloids and surface A: physico Chem. Eng. Aspects., 302, 136(2007)
14 M.Li, J.Xu, Q.Lu, Creating superhydrophobic surface with flowery structure on nickel substrates through a wet– chemical–process, J. Mater. Chem., 17, 1(2007)
15 P.Mali, N.Bhattacharjee, P.C.Searson, Electrochemically programmed release of biomolecules and nanoparticles, Nano Lett., 6, 1250(2006)
16 H.Kaji, M.Hashimoto, M.Nishizawa, On demand patterning of protein matrixes inside a microfluidic device, Anal. Chem., 78, 5469(2006)
17 K.Ichimura, S.Oh, M.Nakagawa, Light–driven motion of liquids on a photoresponsive surface, Science., 288, 1624(2000)
18 Y.T.Cheng, D.E.Rodak, C.A.Wong, C.A.Hayden, Effects of micro– and nano– structures on the self–cleaning behaviour of lotus leaves, Nanotechnology., 17, 1359(2006)
19 M.Miwa, A.Nakajima, A.Fujishima, K.Hashimoto, T.Watanabe, Effects of the surface roughness on sliding angles of water droplets on superhydrophobic surfaces, Langmuir., 16(13), 5754(2000)
20 M.Marmur, The lotus effect: Superhydrophobicity and metastability, Langmuir., 20, 3517(2004)
21 C.G.L Furmidge, Studies at phase interfaces. I. The sliding of liquid drops on solid surfaces and a theory for spray retention, J. Colloid Sci., 17, 309(1962)
22 R.N.Wenzel, Resistance of solid surfaces to wetting by water, Ind. Eng. Chem., 28, 988(1936)
23 A.B.D.Cassie, S.Baxter, Wettability of porous surfaces, Trans. Faraday. Soc., 40, 546(1944)
24 J.Jopp, H.Grull, R.Yerushalmi Rozen, Wetting behavior of water droplets on hydrophobic microtextures of comparable size, Langmuir., 20, 10015(2004)
25 J.Bico, C.Tordeux, D.Qu′er′e, Wetting of textured surfaces, Colloids. Surf., 206, 41(2002)
26 X.Feng, L.Jiang, Design and creation of super– wetting/Antiwetting surface, Adv. Mater., 18, 3063(2006)
27 X.Yu, Z.Wang, Y.Jiang, F.Shi, X.Zhang, Reversible pH– responsive surface: from superhydrophobicity to superhydrophilicity, Adv. Mater., 17, 1289(2005)
28 R.Wang, K.Hashimoto, A.Fujishima, M.Chikuni, E.Kojima, A.Kitamura, M.Shimohigoshi, T.Watanabe, Light–induced amphiphilic surfaces, Nature., 388, 431(1997)
29 L.Feng, Y.Song, J.Zhai, B.Liu, J.Xu, L.Jiang, D.Zhu, Creation of a superhydrophobic surface from an amphiphilic polymer, Angew. Chem. Int. Ed., 42(7), 800(2003)
30 E.A.Vogler, Structure and reactivity of water at biomaterial surfaces, Adv. Colloid. Interface. Sci., 74, 69(1998)
31 J.Y.Chung, J.P.Youngbloodb, C.M.Stafford, Anisotropic wetting on tunable microwrinkled surfaces, Soft. Matter., 3, 1163(2007)
32 T.Sun, G.Wang, L.Feng, B.Liu, Y.Ma, L.Jiang, D.Zhu, Reversible switching between superhydro– philicity and superhydrophobicity, Angew. Chem. Int. Ed., 43, 357(2004)
33 T.Yakushiji, K.Sakai, A.Kikuchi, T.Aoyagi, Y.Sakurai, T.Okano, Graft architectural effects on thermoresponsive wettability changes of poly(N–isopropylacrylamide) modified surfaces, Langmuir., 14, 4657(1998)
34 Q.Fu, G.V.R.Rao, S.B.Basame, D.J.Keller, Reversible control of free energy and topography of nano–structured surfaces, J. Am. Chem. Soc., 126, 8904(2004)
35 S.Khongtong, G.S.Ferguson, Temperature actuated changes in wettability at elastomer/water interfaces, Langmuir., 20, 9992(2004)
36 S.Yokota, K.Matsuyama, T.Kitaoka, H.Wariishi, Thermally responsive wettability of self–assembled methylcellulose nanolayers, Applied Surface, Science., 253, 5149(2007)
37 N.Verplanck, E.Galopin, J.C.Camart, Reversible electrowetting on superhydrophobic silicon nanowires, Nano Lett., 7(3), 813(2007)
38 T.N.Krupenkin, J.A.Taylor, T.M.Schneider, S.Yang, From rolling ball to complete wetting: the dynamic tuning of liquids on nanostructured surfaces, Langmuir., 20, 3824(2004)
39 L.Xu, W.Chen, A.Mulchandani, Y.Yan, Reversible conversion of conducting polymer films from superhydrophobic to superhydrophilic, Angew. Chem. Int. Ed., 44, 6009(2005)
40 L.Robinson, A.Hentzell, N.D.Robinson, Electrochemical wettability switches gate aqueous liquids in microfluidic systems, Lab Chip., 6, 1277(2006)
41 X.Feng, J.Zhai, L.Jiang, The fabrication and switchable superhydrophobicity of TiO2 Nanorod films, Angew. Chem. Int. Ed., 44, 5115(2005)
42 N.Katsonisa, M.Lubomskaa, M.M.Pollarda, B.L.Feringaa, P.Rudolfa, Synthetic light–activated molecular switches and motors on surfaces, Progress in Surface Science., 82(7–8), 407(2007)
43 D.Dattilo, L.Armelao, G.Fois, G.Mistura, M.Maggini, Wetting properties of flat and porous silicon surfaces coated with a spiropyran, Langmuir., 23(26), 12945(2007)
44 A.Nayak, H.Liu, G.Belfort, An optically reversible switching membrane surface, Angew. Chem. Int. Ed., 45, 4094(2006)
45 I.Vlassiouk, C.D.Park, S.A.Vail, D.Gust, S.Smirnov, Control of nanopore wetting by a photochromic spiropyran: a light–controlled valve and electrical switch, Nano Lett., 6, 1013(2006)
46 N.Delorme, J.Bardeau, A.Bulou, F.Poncin–Epaillard, Langmuir., 21, 12278(2005)
47 W.Jiang, G.Wang, Y.He, X.Wang, Y.An, Y.Song, L.Jiang, Photoswitched wettability on an electrostatic self– assembly azobenzene monolayer, Chem. Commun., 28, 3550(2005)
48 H.S.Lim, J.T.Han, D.Kwak, M.Jin, K.Cho, Photoreversibly switchable superhydrophobic surface with erasable and rewritable pattern, J. Am. Chem. Soc., 128, 14458(2006)
49 H.Liu, L.Feng, J.Zhai, L.Jiang, D.Zhu, Reversible wettability of a chemical vapor deposition prepared ZnO film between superhydrophobicity and super–hydrophilicity, Langmuir., 20, 5659(2004)
50 Z.Zhou, F.Li, Q.Song, T.Yi, C.Huang, Reversible wettability switch of large area TiO2 films, Chem. Lett., 34, 1298(2005)
51 L.Huang, S.P.Lau, H.Y.Yang, E.S.P.Leong, S.F.Yu, Stable superhydrophobic surface via carbon nanotubes coated with a ZnO thin film, J. Phys. Chem., 109, 7746(2005)
52 X.Q.Meng, D.X.Zhao, J.Y.Zhang, D.Z.Shen, Y.M.Lu, L.Dong, Z.Y.Xiao, Y.C.Liu, X.W.Fan, Wettability conversion on ZnO nanowire arrays surface modified by oxygen plasma treatment and annealing, Chem. Phys. Lett., 413, 450(2005)
53 X.Feng, L.Feng, M.Jin, J.Zhai, L.Jiang, D.Zhu, Reversible superhydrophobicity to superhydrophilicity transition of aligned ZnO nanorod films, J. Am. Chem. Soc., 126, 62(2004)
54 S.Wang, X.Feng, J.Yao, L.Jiang, Controlling wettability and photochromism in a dual–responsive tungsten oxide film, Angew. Chem. Int.Ed., 45, 1264(2006)
55 H.S.Lim, D.Kwak, D.Y.Lee, S.G.Lee, UV–driven reversible switching of a roselike vanadium oxide Film between superhydrophobicity and superhydrophilicity, J. Am. Chem. Soc., 129, 4128(2007)
56 M.Motornov, S.Minko, K.Eichhorn, M.Nitschke, F.Simon, M.Stamm, Reversible tuning of wetting behavior of polymer surface with responsive polymer brushes, Langmuir., 19, 8077(2003)
57 M.C.LeMieux, D.Julthongpiput, K.N.Bergman, P.D Cuong, Ultrathin binary grafted polymer layers with switchable morphology, Langmuir., 20, 10046(2004)
58 C.Xu, B.B.Wayland, M.Fryd, K.I.Winey, R.J.Composto, pH–responsive nanostructures assembled from amphiphilic block copolymers, Macromolecules., 39, 6063(2006)
59 Y.G.Jiang, Z.Q.Wang, X.Yu, F.Shi, H.P.Xu, X.Zhang, Self–assembled monolayers of dendronthiols for electrodeposition of gold nanostructures, Langmuir., 21, 1986(2005)
60 A.Synytska, M.Stamm, Simple and fast method for the fabrication of switchable bicomponent micropatterned polymer surfaces, Langmuir., 23(9), 5205(2007)
61 Y.Zhu, L.Feng, F.Xia, J.Zhai, M.Wan, L.Jiang, Chemical dual–responsive wettability of superhydrophobic PANI– PAN coaxial nanofibers, Macromol. Rapid. Commun., 28, 1135(2007)
62 W.Yuan, G.Jiang, J.Wang, G.Wang, Y.Song, L.Jiang, Temperature/Light dual–responsive surface with tunable wettability created by modification with an azobenzene– containing copolymer, Macromolecules., 39, 1300(2006)
63 F.Xia, L.Feng, S.Wang, T.Sun, W.Song, W.Jiang, L.Jiang, Dual–responsive surfaces that switch between superhydrophilicity and superhydrophobicity, Adv. Mater., 18, 432(2006) |
