Nanostructured surfaces Interfacial tension Weng · surface tension for Teflon-air is 92 mM/m, the...
Transcript of Nanostructured surfaces Interfacial tension Weng · surface tension for Teflon-air is 92 mM/m, the...
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NanostructuredsurfacesInterfacialtension
We2ng
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γ =N(Newton)m(meter)
=Force/unitlength=Energy/unitsurface
Crea;ngsurfacescostsenergy
Defini;on:Interfacialtension
Energycostforcrea;ngthissurface:E=Aγ=2Bγ
B
TotalsurfaceAcreated:A=2B
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Spheresaretheshapewiththesmallestsurfaceforagivenvolume
hHp://www.123rf.com
Crea;ngsurfacescostsenergy
γwater/air=72mN/mγwater/oil=50mN/mγmercury/air=490mN/m
hHp://www.kidsdiscover.com
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INTERFACES:liquid-liquidgas-liquidsolid-solidsolid-liquid:WETTING
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Wikipedia
θc:contactangle
θc<90°:we2ngθc>90°:nonwe2ng
We2ng
Youngequa;on:
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Terminology:Whentheliquidiswater:Wespeakabouthydrophilicsurface(likeswater)whenthedropofwaterspreadsonthesurface:andhydrophobicsurfacewhenthedropofwaterdoesnotspreadonthesurface
θc>90
θc<90
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ExerciseLet’sconsideradropofwateronTeflon.ThesurfacetensionforTeflon-airis92mM/m,thesurfacetensionofwater-airis72mN/mandthesurfacetensionofTeflon-airis20mN/m.CalculatethecontactangleofthedropontheTeflonsurface.Drawthedrop.Answer:Youngequa;on:
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RoughsurfacesMicro/nanostructuredsurfaces
ProgressinMaterialsScience56(2011)1–108
Rf=surfaceroughnessfactor=Surfaceareasolid-liquid/flatprojectedarea
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RoughsurfacesMicro/nanostructuredsurfaces
Ifyouhaveahydrophilicmaterial(e.g.cleanglass),addingmicroandnanostructurestothesurfacewillmakethesurfaceevenmorehydrophilic.->thesesurfacearecalledsuperhydrophilicsurfaces(θc=0°)Ifyouhaveahydrophobicmaterial(e.g.polystyrene),addingmicroandnanostructurestothesurfacewillmakethesurfaceevenmorehydrophobic.->thesesurfacesarecalledsuperhydrophobicsurfaces.(θc≈180°)
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Takealeafofladiesmantle.Pourasmalldropofwater(diameter≤1mm)onanundamagedandcleanareaoftheleaf.-Whatisthecontactangleofthewaterdropontheleaf?-Tilttheleafbackandforthandobservehoweasyitistogetridofthewaterfromtheleaf.-Rubyourfingeronapartoftheleafandrepeattheexperiment.-Repeattheabovewithwatercontainingsoap.TakeamicroscopeglassslidePourasmalldropofwater(diameter≤1mm)onacleanareaoftheslide.-Whatisthecontactangleofthewaterdropontheslide?-Tilttheslidebackandforthandobservehoweasyitistogetridofthewaterfromtheslide.Whatisthedifferencebetweenthelady’smantleleafandthemicroscopeslide?
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Superhydrophilicsurfaces:Contactangle=0Applica;on:defogging
hHps://www.youtube.com/watch?v=bX9TP53gSy0
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Superhydrophobicsurfaces:Contactangle>150°androll-offangle<10°Selfcleaningeffect
www.youtube.com
Lotusleaf
Inspiredresearchon:-newgenera;onoffabrics-coa;ngs,windowsetc…
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Howtomakeinterfacesmorestable?
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Howtomakeinterfacesmorestable?
Surfactants(=ac=ngonsurfaces)Moleculesthatlowertheinterfacialenergy
Headthatlikeswater
Tailthatlikesoil/air ≈1-5nm
=Polarhead,hydrophilichead
=Apolartail,hydrophobictail
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Surfactants(=ac=ngonsurfaces)Moleculesthatlowertheinterfacialenergy
air
water
γ = 72 mN/m
air
water
γ ≈ 25 mN/m
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Surfactants
Neutral
Anionic
Ca;onic
zwiHerionic
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Surfactants
Sodiumstearate(soap)
Phospholipids:examplePhospha;dylcholine(componentofcellmembrane)Foundineggyolk,soy…
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Surfactantapplica;ons
Emulsiondefini;on:mixtureof2nonmiscibleliquidsOneliquidisdispersedintotheother
Emulsionstabiliza;on
hHp://sparror.cubecinema.com/
DispersedPhaseCon;nuousphase
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Surfactantapplica;ons
Exercise:Let’sconsideranoilinwateremulsion.Thevolumeofwateris1landthevolumeofoilis10%ofthewatervolume.Theoildroppletsare1µminradiusandtheinterfacialtensionbetweenoilandwateris50mN/m.Calculatetheoil-watertotalinterfacialenergyofthisemulsion.
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Answer:
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Surfactantapplica;ons
Exercise:Let’sconsidertheoilinwateremulsionfrombefore.(Thevolumeofwateris1landthevolumeofoilis10%ofthewatervolume.Theoildroppletsare1µminradiusandtheinterfacialtensionbetweenoilandwaterwithsurfactantpresentis≈10mN/m.Howmuchistheinterfacialenergynow?Answer:3JWilltheemulsionbemoreorlessstable?Answer:morestable(lowerenergy)
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Surfactantapplica;ons
Examples:VinaigreHe(Unstable)Mayonnaise(stabilizedbyeggyolk)Cosme;cs,lo;ons(stabilizedbypolymersetc…)
Emulsionstabiliza;on
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Howaresurfactantsposi;onnedinasoapbubble?
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Surfactants
WaterfilmAir
Air
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Surfactants
WaterlayerAir
Air
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SurfactantsMicelles
hHp://w
ww.aH
ension.com
hHp://www.piercen
et.com
Air
Water
Cri;calmicellarconcentra;on:Surfactantconcentra;onabovewhichmicellesforminthebulk(surface=full).
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Surfactantapplica;onsLaundrydetergent,soapetc….
Water
Fabricwithfatstain
fat
fat
micelle
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SurfactantsLiposomes(ar;ficialvesicles):Plentyofpossibili;esfordrugdelivery
- Canbeloadedwithmolecules/drugs
- Protectthedrugfrominvivocondi;ons(stomach,blood,immunecells)- Surfacecanbefunc;onalized(targetcells)
- Somecandeliverdruginsidecellsbymembranefusion(difficultforhydrophilicdrugstocrossthecellmembrane)-somereleasetheircargoonspecificcondi;ons(pH,pressure,temperature….)
hHp://w
ww.britannica.com
10nm-10µm
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SurfactantsLiposomeapplica;ons
www.nature.com/nnano/journal/v7/n8/pdf/nnano.2012.84.pdf
Localdeliveryofvasodilatorsfortrea;ngatherosclerosis(UniversityofGeneva,2012)Atherosclerosis:-nospecificbiomarkersiden;fied-highshearstressduetothenarrowingofthebloodvessel
Vesiclesbreakandreleasetheircontentathighshearstress
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AB
CD
EF G
H
Whichofthefollowingobjectcontainssurfactant?
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AB
CD
EF G
H
Whichofthefollowingobjectcontainssurfactant?
Anethole:solubleinethanol-notinwater
Milkproteins Eggyolk(phospholipids) NosurfactantsLotsofsurfactants!
Lotsofsurfactants!Surfactantstopreventlungcollapse
Nosurfactants
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Ouzoeffect:Surfactant–freestableemulsion!
Anethole:solubleinethanol-notinwater
Youneed3liquids:Liquid1:waterLiquid2:ethanol–solubleinwaterLiquid3:anethole(organicflavoringsubstance≈oil)-Solubleinethanol,butnotinwater.
Beforepouringthewater,theanetholeisinethanol,bothliquidsaremiscible,thesolu;onistransparent.Aweraddingwater,theanetholformssmalldroplets(≈1µm)surroundedbyethanolandsuspendedinwater.Thedropletsarestable.
anethole
ethanol
water
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LaplaceLaw:Pressuredifferenceacrosstheinterfaceof2fluids.Forasphericaldropofonefluidintoanother:P=2γ/rwhereγistheinterfacialtensionbetweenthe2fluidsandristhedropradius.
r
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Lungsurfactants
LaplaceLaw:P=2γ/r:pressureneededtomaintainanairinwatersphericalbubbleThealveolicanbeapproximatedbyaair-in-waterbubbleswithaninterfacialenergyγ)Whentheairisexpelled:rbecomesverysmall.Iftherearenosurfactants,thepressureneededtopreventlungcollape(=tomaintainthesmallairbubbleisverybig).Iftherearesurfactantsattheinterface,theinterfacialtensionbecomesmaller(γ)andthepressureneededtopreventlungcollapseissmaller.
Thesurfactantpreventlungcollapseuponairexpulsion
r