LSPR Review2.docx
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LSPR Review2.docx
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LSPRReview2
LocalizedSurfacePlasmonResonanceSensors:
Review
Si-yiYang1,Xiao-xueSun1,ChengWang1,
Dong-hongCai2,LiZhang1,Guo-huaLiu1
(1.CollegeofInformationTechnologyandScience,NankaiUniversity,Tianjin300071,China;2.DepartmentofPhysics,Kashiteacherscollege,Xinjiang844000,China)
Abstract:
Recently,theresearchonthelocalizedsurfaceplasmonresonance(LSPR)sensorsisoneofthehot-spotsinthefiledofsensortechnology.TheLSPRsensorshaveobviouslytechnologyadvantageindetectingandanalyzingthepropertiesofphysicsandchemistry,especiallybiology.ThisreviewintroducesthetechnicalprinciplesandfeaturesofLSPRsensorsandcomparesthecurrentresearchofseveralLSPRsensorstructuresandproductionmethods.Meanwhile,itdiscussesthefuturedevelopmentsandcommercialviewsofLSPRsensors.
KeyWords:
LocalizedSurfacePlasmonResonance(LSPR);Biosensor;Nanoparticle
1.Introduction
Inrecentyears,scientistshavehighinterestsinthenanomaterialsforthespecialcharactersinoptics,electromagneticsandmechanics.NanoparticlesofthenoblemetalsexhibitastrongUV-Visabsorptionbandthatisnotpresentinthespectrumofthebulkmetal[1-8].Scientistshavereportedthatthecharactersofnoblemetalnanoparticlesuspensionsarisefromtheirstronginteractionwithlightandtheadventofthefieldofnanoparticleopticshasallowedforadeeperunderstandingoftherelationshipbetweenmaterialpropertiessuchascomposition,size,shape,andlocaldielectricenvironmentandtheobservedcolourofametalsuspension.Anunderstandingoftheopticalpropertiesofnoblemetalnanoparticlesholdsbothfundamentalandpracticalsignificance.Fundamentally,itisimportanttosystematicallyexplorethenanoscalestructuralandlocalenvironmentalfactorsthatcauseopticalpropertyvariation,aswellasprovideaccesstoregimesofpredictablebehaviour.Practically,thetunableopticalpropertiesofnanostructurescanbeappliedasmaterialsforsurface-enhancedspectroscopy[9-13],opticalfilters[14,15],plasmonicdevices[16-19]andsensors.
ItwasrealisedthatthesensortransductionmechanismofthisLSPR-basednanosensorisanalogoustothatofSPRsensors.LSPRsensorscanbeseenasthecontinuationandexpansionofSPRsensors.Theformertookplaceinthelocalizedmetalnanoparticlesandthelattertookplaceinthesurfaceofmetalfilms.However,theopticalcharacterofLSPRisdifferentfromthatofSPR.LSPRhasgreatpotentialinsensingfieldsothatithasbeenwidelystudied[20-26].Itisknownthatnanoparticles,suchasgoldandsilver,havestrongabsorptioninthevisibleregion,oftenconsideredaslocalizedsurfacePlasmonabsorption[27,28].SuchLSPRoccurswhentheincidentphotonfrequenciesmatchthecollectiveoscillationsoftheconductionelectronsofmetalnanoparticlesormetalislands.TheparticlesinthenanoscaleexhibituniqueopticalresponseswithintheUV-Visregion[29,30],wheretheabsorbanceshowsanexponentialdecaywithdecreasingphotonenergy(theso-calledMiescattering),ontowhichanLSPRband,specificfortheparticlematerial,issuperimposed.Thesurfaceplasmonenergyandintensityhavebeenfoundtobesensitivetoanumberoffactors,includingparticleconformation,immediatesurroundingmedia,etc.[31-35].Thereactionsbetweensolutionandprobeonthemolecularnanoparticlescancausechangethethicknessofthemolecularlayer,whichledtotheshiftofLSPRabsorption,sothismethodcanbeusedindetectingdynamicreal-timedetection[36-37].TakeAgnanoparticlesfabricatedusingnanospherelithography(NSL)asanexample.Consistentwavelengthshiftstotheredwithincreasingdensityandthicknessofadsorbatelayers.Thewavelengthshiftresponseisdeterminedbythesizeandpackingdensityofthemoleculesonthenanoparticlesurfaceandthelimitofdetectionofthesystemaredeterminedbythesurface-confinedbindingconstantbetweenthecaptureligandonthesurfaceandthetargetmoleculeinsolution.Asthesystemsrevealnononspecificbinding,theentireresponsecanbeattributedtothespecificinteractionsbetweenthemoleculesofchoice.OptimizationoftheLSPRnanosensorhasbeenrealizedbyadjustingthesizeandshapeofthenanoparticles[30,38].
Forthenanomaterialshavethesamescaleasbiopolymers,proteinsandnucleicacidsinsizes,theresearchesandoptimizationsofLSPR-basedsensingtechnologyhavebeencarriedoninthebiomedicalfield.Thebasicofapplicationsinbioresearch,biosensing,celllabeling,fixed-pointdiagnosis,moleculardynamicsresearch,andvectortreatmentistheinteractionbetweenbiomolecularsandnanomaterials.LSPRnanosensorsareusefulindetectingbiologicalmolecules[22,39,40].
2.TheprincipleofLSPRsensors
LSPRiscollectiveoscillationsoftheconductionelectronsconfinedtometallicnanoparticlesandmetallicnanostructures[41-45].Itoccursinmetallicnanostructures,suchasnanoparticles,nanotriangles[46],andnanoisland[42].LSPRisobservedwhenthefrequenciesofincidentphotonmatchthecollectiveoscillationsoftheconductiveelectronsofmetalnanoparticles.Excitationoflocalizedsurfaceplasmonsbyanelectricfieldatanincidentwavelengthwhereresonanceoccursresultsinastronglightscattering,intheappearanceinintensesurfaceplasmonabsorptionbands,andtheenhancementofthelocalelectromagneticfield.ThenanoparticlesexhibituniqueopticalresponseswithintheUV-Visregion[28],wheretheabsorbanceshowsanexponentialdecaywithdecreasingphotonenergy(theso-calledMiescattering)ontowhichanLSPRband.Thefrequencyandintensityofthesurfaceplasmonabsorptionbandshighlydependonthetypeofthematerial(gold,silver,platinum),thesizeandtheshapeofnanostructuresaswellasontheirsurroundingenvironment[29,30,34,47].
LSPRoccurswhenthefrequencyoftheincidentphotonsresonateswiththecollectiveoscillationsoffreeelectronsinthemetals.ThesimplestmodelofnanoparticleopticalresponsesisMietheory.Itdescribesextinctionamountsofthelong-wavelengthsphericalmetalparticles.Theformisasfollow[35]:
E(λ)istheextinctionwhichisequaltothesumofabsorptionandscattering,NAisthearealdensityofnanoparticles,aistheradiusofthemetallicnanosphere,εmisthedielectricconstantofthemediumsurroundingthemetallicnanosphere(assumedtobeapositive,realnumberandwavelengthindependent),λisthewavelengthoftheabsorbingradiation,εiistheimaginaryportionofthemetallicnanosphere’sdielectricfunction,andεristherealportionofthemetallicnanosphere’sdielectricfunction.ItiseasytoseethattheLSPRconditionismetwhen(εr+2εm)2approacheszero.
Inthisprimitivemodel,itisclearthattheLSPRspectrumofanisolatedmetallicnanosphereembeddedinanexternaldielectricmediumwilldependasfollows:
theradiusa,thenanoparticlematerial(εiandεr),andthenanoenvironment’sdielectricconstant(εm).Furthermore,whenthenanoparticlesarenotspherical,asisalwaysthecaseinrealsamples,theextinctionspectrumwilldependonthenanoparticle’sin-planediameter,out-of-planeheight,andshape.Inthiscasetheresonancetermfromthedenominatorof
(1)isreplacedwith:
Whereχ,ashapefactorterm[11],isatermthatdescribesthenanoparticle’saspectratio.Thus,theLSPRwillalsodependoninterparticlespacingandthesubstratedielectricconstant.ItisapparentfromEq.1thatthelocationoftheextinctionmaximumofnoblemetalnanoparticlesishighlydependentonthedielectricpropertiesofthesurroundingenvironment,andthatwavelengthshiftsintheextinctionmaximumofnanoparticlescanbeusedtodetectmolecule-inducedchangessurroundingthenanoparticle.
3.TheconfigurationofLSPRsensingsystem
LSPR-baseddevicecanbesetupwithoutusingthespecificconfigurations,forexample,theattenuatedtotalreflection(ATR)opticalsetuporwaveguidecoupling,itispossibletofabricateverysmalldevicesbasedbyNSLorothertechnologies.ThesepropertieshavepromptedanintenseinterestinLSPR-basedsensorsandbiosensors.
Generally,anLSPRopticalsensorcomprisesanopticalsystem,atransducingmediumwhichinterrelatestheopticalandbiochemicaldomains,andanelectronicsystemsupportingtheoptoelectroniccomponentsofthesensorandallowingdataprocessing.ThetransducingmediumtransformeschangesinthequantityofinterestintochangesintherefractiveindexwhichmaybedeterminedbyopticallyinterrogatingtheLSPR.TheopticalpartoftheLSPRsensorcontainsasourceofopticalradiationandanopticalstructureinwhichsurfaceplasmonwaveisexcitedandinterrogated.IntheprocessofinterrogatingtheLSPR,anelectronicsignalisgeneratedandprocessedbytheelectronicsystem.MajorpropertiesofanLSPRsensoraredeterminedbypropertiesofthesensor’ssubsystems.Thesensorsensitivity,stability,andresolutiondependuponpropertiesofboththeopticalsystemandthetransducingmedium.Theselectivityandresponsetimeofthesensorareprimarilydeterminedbythepropertiesofthetransducingmedium.Takethefiber-basedbiosensorsystemasanexample.Theconfigurationoffiber-basedbiosensorsystemisshowninFig.1.Thesystemconsistsofalaser,achopper,afibercoupler,asensingfiber,aliquidcell,aphotoreceiver,andalock-inamplifier[48].
Fig.1TheschematicrepresentationoftheLSPRbiosensorsystem
4.ThefabricationandtechnologyofLSPRsensor
MetalnanostructuresarethekeytofabricatetheLSPRbiosensors.Theymainlyincludenanowirearray,nanoparticles,nanoislandsandotherstructures,thenwewillintroducethefabricationandtechnolog
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