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1、外文资料原文OLED-PolypropyleneBio-CDSensorSrikanthVengasandra,YuankunCai,DavidGrewell,JosephShinar,andRuthShinarcDepartmentofAgricultural&BiosystemsEngineeringAmesLaboratory-USDOEandDepartmentofPhysics&AstronomyMicroelectronicsResearchCenterandDepartmentofElectricalandComp
2、uterEngineeringIowaStateUniversity,Ames,IA50011,U.S.AABSTRACTWiththegoalofdevelopingmicrofluidicplatformsforsensingapplications,flash-freemicropatternswereembossedinpolypropylenesurfaceswithultrasonicheatingforabiosensingapplication.Theembossedfeaturesweredesignedtoa
3、ctasreservoirs,valves,andreactionchamberstoallow,incombinationwithacompactsensingplatform,themonitoringofanalytelevelsusingastandardPC-CDplayer.Togeneratethecompactsensor,asanexample,wechosethephotoluminescence(PL)-baseddetectionoflactateandglucoseusinganOLED-basedse
4、nsingplatform.Onceembossed,thesurfaceenergyoftheplasticsubstratewaschemicallymodifiedtomakeithydrophilic.Reagents,placedinseparatereservoirs,weredirectedthroughburstvalvestowardsareactionchamberviaCDrotation.Lactateorglucoseweremonitoredbymeasuringtheeffectoftherelat
5、eddissolvedoxygenlevelonthePLdecaytimeofanoxygen-sensitivedye,followinganalyteoxidationcatalyzedbyasuitablespecificoxidaseenzyme.TheresultsdemonstratethepotentialofintegratingOLEDsasexcitationsourcesinPL-basedsensorswithmicrofluidicCD-basedplatforms,includingforsimul
6、taneousmultipleanalyses.Keywords:Organiclight-emittingdiode,OLED,lab-on-a-CD,glucosesensor,lactatesensor1.INTRODUCTIONBiomedicalmicroelectromechanicalsystem(MEMS)-basedsensingplatformsfabricatedonplasticsubstrateshavethepotentialofe.g.,beinglowcost,disposable,cross-c
7、ontaminationfree,andsensitive.Additionally,suchsensorsshowpromiseforhighthroughputandmultianalytedetection.Theadvantagesofsuchalab-on-CD-basedbiosensingplatformincludeitssimplicityintermsofusageforawiderangeofsolutions,versatilityintermsofmultianalytedetectionfeasibi
8、lity,andcompactsize.Moreover,valvingiseasilyimplementedinsuchCDs.Thispaperdescribestheuseofultrasonicmicro-embossingtogeneratemicro
