Kaholek M, Lee W-K, LaMattina B, Caster KC, Zauscher S (2004) Fabrication of stimulus-responsive nanopatterned polymer brushes by scanning-probe lithography. Polymer 50(22):5181–5191Īlarcon CDH, Farhan T, Osborne L, Huck WTS, Alexander C (2005) Bioadhesion at micro-patterned stimuli-responsive polymer brushes. J Am Chem Soc 125(51):15912–15921īerndt E, Ulbricht M (2009) Synthesis of block copolymers for surface functionalization with stimuli-responsive macromolecules. Julthongpiput D, Lin YH, Teng J, Zubarev ER, Tsukruk VV (2003) Yshaped amphiphilic brushes with switchable micellar surface structures. Zhao B, Brittain WJ, Zhou W, Cheng SZD (2000) Nanopattern formation from tethered PS-b-PMMA brushes upon treatment with selective solvents. Jiang WH, Wang G, He Y, Wang X, An Y, Songa Y, Jiang L (2005) Photoswitched wettability on an electrostatic self-assembly azobenzene monolayer. J Am Chem Soc 126(4):1032–1033īerna J, Leigh DA, Lubomska M, Mendoza SM, Pérez EM, Rudolf P, Teobaldi G, Zerbetto F (2005) Macroscopic transport by synthetic molecular machines. Eur Phys J E 10(2):103–114Ĭooper CG, MacDonald JC, Soto E, McGimpsey WG (2004) Noncovalent assembly of a photoswitchable surface. Raduge C, Papastavrou G, Kurth DG, Motschmann H (2003) Controlling wettability by light: illuminating the molecular mechanism. Science 288:1624–1626įeng CL, Jin J, Zhang YJ, Song YL, Xie L, Qu GR, Xu Y, Jiang L (2001) Reversible light-induced wettability of fluorine-containing azobenzene-derived Langmuir-Blodgett films. Ichimura K, Oh SK, Nakagawa M (2000) Light-driven motion of liquids on a photoresponsive surface. Katz E, Lioubashevsky O, Willner I (2004) Electromechanics of a redox-active rotaxane in a monolayer assembly on an electrode. Lahann J, Mitragotri S, Tran TN, Kaido H, Sundaram J, Choi IS, Hoffer S, Somorjai GA, Langer R (2003) A reversibly switching surface. Wilson MD, Whitesides GM (1988) The anthranilate amide of polyethylene carboxylic-acid shows an exceptionally large change with ph in its wettability by water. Kontturi K, Mafé S, Manzanares JA, Svarfvar BL, Viinikka P (1996) Modeling of the salt and pH effects on the permeability of grafted porous membranes. Sun TL, Wang G, Feng L, Liu B, Ma Y, Jiang L, Zhu D (2004) Reversible switching between superhydrophilicity and superhydrophobicity. Chem Phys Chem 8(14):2036–2050Ĭrevoisier GB, Fabre P, Corpart JM, Leibler L (1999) Switchable tackiness and wettability of a liquid crystalline polymer. Gras SL, Mahmud T, Rosengarten G, Mitchell A, Kalantar-Zadeh K (2007) Intelligent control of surface hydrophobicity. Langmuir 19(19):8077–8085Īlexander C, Shakesheff KM (2006) Responsive polymers at the biology/materials science interface. Motornov M, Minko S, Eichhorn KJ, Nitsche M, Simon F, Stamm M (2003) Reversible tuning of wetting behavior of polymer surface with responsive polymer brushes. Mendes PM (2008) Stimuli-responsive surfaces for bio-applications. Finally, some of the applications will be highlighted in which smart polymer surfaces have been applied including wettability, biomedical purposes, sensoring, or smart adhesion. Differentiation will be provided between the methodologies to prepare patterned surfaces as a function of their final resolution. The variation of the surface topography at the micro- and nanopatterned interfaces will be described as an additional tool to significantly alter the final surface properties. This chapter will provide an overview of the main strategies reported to produce adaptive surfaces depending on the external stimuli employed to vary reversibly the surface properties. Their unique adaptability by property variation as a function of environmental changes has found multiple industrial applications in fields including sensoring and diagnosis or in the biomedical field to promote, for instance, cell and tissue engineering. The preparation of smart surfaces (i.e., surfaces exhibiting switchable and a priori contradictory properties) has been extensively pursued during the last decade.
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