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OALib Journal期刊
ISSN: 2333-9721
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润湿性可控智能表面的研究进展
Keywords: 材料科学基础学科,可控润湿性,综述,智能表面,接触角,温敏聚合物,光敏材料
Abstract:
?论述了表面润湿性的基本原理,综述了可控润湿性智能表面研究的最新进展,介绍了热化学法、电润湿法、光致表面化学反应法、溶剂法、ph法和多重响应法等调控表面润湿性的方法和机理,展望了润湿性可控智能表面的发展方向.
| [1] | 3t.h.chen,y.j.chuang,c.c.chieng,f.g.tseng,awettabilityswitchablesurfacebymicroscalesurfacemorphologychange,j.micromech.microeng.,17,489(2007)
|
| [2] | 4s.l.gras,t.mahmud,g.rosengarten,a.mitchell,k.kalantarzadeh,intelligentcontrolofsurfacehydrophobicity,chem.phys.chem.,8,2036(2007)
|
| [3] | 5s.minko,m.mller,m.motornov,twolevelstructuredself–adaptivesurfaceswithreversiblytunableproperties,j.am.chem.soc.,125,3896(2003)
|
| [4] | 6m.s.dhindsa,n.r.smith,j.heikenfeld,reversibleelectrowettingofverticallyalignedsuperhydrophobiccarbonnanofibers,langmuir.,22,9030(2006)
|
| [5] | 7x.yu,z.wang,y.jiang,f.shi,x.zhang,reversibleph–responsivesurface:fromsuperhydrophobicitytosuperhydrophilicity,adv.mater.,17,1289(2005)
|
| [6] | 8j.l.zhang,j.li,y.c.han,superhydrophobicptfesurfacesbyextension,macromol.rapid.commun.,25,1105(2004)
|
| [7] | 9j.l.zhang,x.y.lu,w.h.huang,y.c.han,reversiblesuperhydrophobicitytosuperhydrophilicitytransitionbyextendingandunloadinganelasticpolyamidefilm,macromol.rapid.commun.,26,477(2005)
|
| [8] | 20m.marmur,thelotuseffect:superhydrophobicityandmetastability,langmuir.,20,3517(2004)
|
| [9] | 21c.g.lfurmidge,studiesatphaseinterfaces.i.theslidingofliquiddropsonsolidsurfacesandatheoryforsprayretention,j.colloidsci.,17,309(1962)
|
| [10] | 24j.jopp,h.grull,r.yerushalmirozen,wettingbehaviorofwaterdropletsonhydrophobicmicrotexturesofcomparablesize,langmuir.,20,10015(2004)
|
| [11] | 25j.bico,c.tordeux,d.qu′er′e,wettingoftexturedsurfaces,colloids.surf.,206,41(2002)
|
| [12] | 30e.a.vogler,structureandreactivityofwateratbiomaterialsurfaces,adv.colloid.interface.sci.,74,69(1998)
|
| [13] | 31j.y.chung,j.p.youngbloodb,c.m.stafford,anisotropicwettingontunablemicrowrinkledsurfaces,soft.matter.,3,1163(2007)
|
| [14] | 35s.khongtong,g.s.ferguson,temperatureactuatedchangesinwettabilityatelastomer/waterinterfaces,langmuir.,20,9992(2004)
|
| [15] | 36s.yokota,k.matsuyama,t.kitaoka,h.wariishi,thermallyresponsivewettabilityofself–assembledmethylcellulosenanolayers,appliedsurface,science.,253,5149(2007)
|
| [16] | 37n.verplanck,e.galopin,j.c.camart,reversibleelectrowettingonsuperhydrophobicsiliconnanowires,nanolett.,7(3),813(2007)
|
| [17] | 38t.n.krupenkin,j.a.taylor,t.m.schneider,s.yang,fromrollingballtocompletewetting:thedynamictuningofliquidsonnanostructuredsurfaces,langmuir.,20,3824(2004)
|
| [18] | 39l.xu,w.chen,a.mulchandani,y.yan,reversibleconversionofconductingpolymerfilmsfromsuperhydrophobictosuperhydrophilic,angew.chem.int.ed.,44,6009(2005)
|
| [19] | 40l.robinson,a.hentzell,n.d.robinson,electrochemicalwettabilityswitchesgateaqueousliquidsinmicrofluidicsystems,labchip.,6,1277(2006)
|
| [20] | 41x.feng,j.zhai,l.jiang,thefabricationandswitchablesuperhydrophobicityoftio2nanorodfilms,angew.chem.int.ed.,44,5115(2005)
|
| [21] | 42n.katsonisa,m.lubomskaa,m.m.pollarda,b.l.feringaa,p.rudolfa,syntheticlight–activatedmolecularswitchesandmotorsonsurfaces,progressinsurfacescience.,82(7–8),407(2007)
|
| [22] | 43d.dattilo,l.armelao,g.fois,g.mistura,m.maggini,wettingpropertiesofflatandporoussiliconsurfacescoatedwithaspiropyran,langmuir.,23(26),12945(2007)
|
| [23] | 44a.nayak,h.liu,g.belfort,anopticallyreversibleswitchingmembranesurface,angew.chem.int.ed.,45,4094(2006)
|
| [24] | 45i.vlassiouk,c.d.park,s.a.vail,d.gust,s.smirnov,controlofnanoporewettingbyaphotochromicspiropyran:alight–controlledvalveandelectricalswitch,nanolett.,6,1013(2006)
|
| [25] | 46n.delorme,j.bardeau,a.bulou,f.poncin–epaillard,langmuir.,21,12278(2005)
|
| [26] | 53x.feng,l.feng,m.jin,j.zhai,l.jiang,d.zhu,reversiblesuperhydrophobicitytosuperhydrophilicitytransitionofalignedznonanorodfilms,j.am.chem.soc.,126,62(2004)
|
| [27] | 56m.motornov,s.minko,k.eichhorn,m.nitschke,f.simon,m.stamm,reversibletuningofwettingbehaviorofpolymersurfacewithresponsivepolymerbrushes,langmuir.,19,8077(2003)
|
| [28] | 57m.c.lemieux,d.julthongpiput,k.n.bergman,p.dcuong,ultrathinbinarygraftedpolymerlayerswithswitchablemorphology,langmuir.,20,10046(2004)
|
| [29] | 61y.zhu,l.feng,f.xia,j.zhai,m.wan,l.jiang,chemicaldual–responsivewettabilityofsuperhydrophobicpani–pancoaxialnanofibers,macromol.rapid.commun.,28,1135(2007)
|
| [30] | 62w.yuan,g.jiang,j.wang,g.wang,y.song,l.jiang,temperature/lightdual–responsivesurfacewithtunablewettabilitycreatedbymodificationwithanazobenzene–containingcopolymer,macromolecules.,39,1300(2006)
|
| [31] | 1a.nakajima,k.hashimoto,t.watanabe,recentstudiesonsuperhydrophobicfilms,monatsh.chem.,132,31(2001)
|
| [32] | 2x.gao,l.jiang,water–repellentlegsofwaterstriders,nature.,432,36(2004)
|
| [33] | 10j.lahann,s.mitragotri,t.n.tran,h.kaido,j.sundaram,i.s.choi,hoffer,g.a.somorjai,r.langer,areversiblyswitchingsurface,science.,299,371(2003)
|
| [34] | 11x.wang,a.b.kharitonov,e.katz,i.willner,potentialcontrolledmolecularmachineryofbipyridiniummonolayerfunctionalizedsurfaces,chem.commun,13,1542(2003)
|
| [35] | 12y.zhao,q.lu,d.chen,superhydrophobicmodificationofpolyimidefilmsbasedongold–coatedporousslivernanostructuresandself–assembledmonolayers,mater.chem.,16,4504(2006)
|
| [36] | 13j.xu,m.li,y.zhao,q.lu,controloverthehydrophobicbehaviorofpolystrenesurfacebyannealingtemperaturebasedoncapillarytemplatewettingmethod,colloidsandsurfacea:physicochem.eng.aspects.,302,136(2007)
|
| [37] | 14m.li,j.xu,q.lu,creatingsuperhydrophobicsurfacewithflowerystructureonnickelsubstratesthroughawet–chemical–process,j.mater.chem.,17,1(2007)
|
| [38] | 15p.mali,n.bhattacharjee,p.c.searson,electrochemicallyprogrammedreleaseofbiomoleculesandnanoparticles,nanolett.,6,1250(2006)
|
| [39] | 16h.kaji,m.hashimoto,m.nishizawa,ondemandpatterningofproteinmatrixesinsideamicrofluidicdevice,anal.chem.,78,5469(2006)
|
| [40] | 17k.ichimura,s.oh,m.nakagawa,light–drivenmotionofliquidsonaphotoresponsivesurface,science.,288,1624(2000)
|
| [41] | 18y.t.cheng,d.e.rodak,c.a.wong,c.a.hayden,effectsofmicro–andnano–structuresontheself–cleaningbehaviouroflotusleaves,nanotechnology.,17,1359(2006)
|
| [42] | 19m.miwa,a.nakajima,a.fujishima,k.hashimoto,t.watanabe,effectsofthesurfaceroughnessonslidinganglesofwaterdropletsonsuperhydrophobicsurfaces,langmuir.,16(13),5754(2000)
|
| [43] | 22r.n.wenzel,resistanceofsolidsurfacestowettingbywater,ind.eng.chem.,28,988(1936)
|
| [44] | 23a.b.d.cassie,s.baxter,wettabilityofporoussurfaces,trans.faraday.soc.,40,546(1944)
|
| [45] | 26x.feng,l.jiang,designandcreationofsuper–wetting/antiwettingsurface,adv.mater.,18,3063(2006)
|
| [46] | 27x.yu,z.wang,y.jiang,f.shi,x.zhang,reversibleph–responsivesurface:fromsuperhydrophobicitytosuperhydrophilicity,adv.mater.,17,1289(2005)
|
| [47] | 28r.wang,k.hashimoto,a.fujishima,m.chikuni,e.kojima,a.kitamura,m.shimohigoshi,t.watanabe,light–inducedamphiphilicsurfaces,nature.,388,431(1997)
|
| [48] | 29l.feng,y.song,j.zhai,b.liu,j.xu,l.jiang,d.zhu,creationofasuperhydrophobicsurfacefromanamphiphilicpolymer,angew.chem.int.ed.,42(7),800(2003)
|
| [49] | 32t.sun,g.wang,l.feng,b.liu,y.ma,l.jiang,d.zhu,reversibleswitchingbetweensuperhydro–philicityandsuperhydrophobicity,angew.chem.int.ed.,43,357(2004)
|
| [50] | 33t.yakushiji,k.sakai,a.kikuchi,t.aoyagi,y.sakurai,t.okano,graftarchitecturaleffectsonthermoresponsivewettabilitychangesofpoly(n–isopropylacrylamide)modifiedsurfaces,langmuir.,14,4657(1998)
|
| [51] | 34q.fu,g.v.r.rao,s.b.basame,d.j.keller,reversiblecontroloffreeenergyandtopographyofnano–structuredsurfaces,j.am.chem.soc.,126,8904(2004)
|
| [52] | 47w.jiang,g.wang,y.he,x.wang,y.an,y.song,l.jiang,photoswitchedwettabilityonanelectrostaticself–assemblyazobenzenemonolayer,chem.commun.,28,3550(2005)
|
| [53] | 48h.s.lim,j.t.han,d.kwak,m.jin,k.cho,photoreversiblyswitchablesuperhydrophobicsurfacewitherasableandrewritablepattern,j.am.chem.soc.,128,14458(2006)
|
| [54] | 49h.liu,l.feng,j.zhai,l.jiang,d.zhu,reversiblewettabilityofachemicalvapordepositionpreparedznofilmbetweensuperhydrophobicityandsuper–hydrophilicity,langmuir.,20,5659(2004)
|
| [55] | 50z.zhou,f.li,q.song,t.yi,c.huang,reversiblewettabilityswitchoflargeareatio2films,chem.lett.,34,1298(2005)
|
| [56] | 51l.huang,s.p.lau,h.y.yang,e.s.p.leong,s.f.yu,stablesuperhydrophobicsurfaceviacarbonnanotubescoatedwithaznothinfilm,j.phys.chem.,109,7746(2005)
|
| [57] | 52x.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,wettabilityconversiononznonanowirearrayssurfacemodifiedbyoxygenplasmatreatmentandannealing,chem.phys.lett.,413,450(2005)
|
| [58] | 54s.wang,x.feng,j.yao,l.jiang,controllingwettabilityandphotochromisminadual–responsivetungstenoxidefilm,angew.chem.int.ed.,45,1264(2006)
|
| [59] | 55h.s.lim,d.kwak,d.y.lee,s.g.lee,uv–drivenreversibleswitchingofaroselikevanadiumoxidefilmbetweensuperhydrophobicityandsuperhydrophilicity,j.am.chem.soc.,129,4128(2007)
|
| [60] | 58c.xu,b.b.wayland,m.fryd,k.i.winey,r.j.composto,ph–responsivenanostructuresassembledfromamphiphilicblockcopolymers,macromolecules.,39,6063(2006)
|
| [61] | 59y.g.jiang,z.q.wang,x.yu,f.shi,h.p.xu,x.zhang,self–assembledmonolayersofdendronthiolsforelectrodepositionofgoldnanostructures,langmuir.,21,1986(2005)
|
| [62] | 60a.synytska,m.stamm,simpleandfastmethodforthefabricationofswitchablebicomponentmicropatternedpolymersurfaces,langmuir.,23(9),5205(2007)
|
| [63] | 63f.xia,l.feng,s.wang,t.sun,w.song,w.jiang,l.jiang,dual–responsivesurfacesthatswitchbetweensuperhydrophilicityandsuperhydrophobicity,adv.mater.,18,432(2006)
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