摘要
Opticalmicroscopeisoneofthemostpopularcharacterizationtechniquesforgeneralpurposesinmanyfields.Itisdistinguishedfromthevacuumortip-basedimagingtechniquesforitsflexibility,lowcost,andfastspeed.However,itsresolutionlimitsthefunctionalityofcurrentopticalimagingperformance.Whilemicrosphereshavebeendemonstratedforimprovingtheobservationpowerofopticalmicroscope,theyaredirectlydepositedonthesamplesurfaceandthustheapplicationsaregreatlylimited.Wedeveloparemote-modemicrospherenano-imagingplatformwhichcanscanfreelyandinreal-timeacrossthesamplesurfaces.Itgreatlyincreasestheobservationpowerandsuccessfullycharacterizesvariouspracticalsampleswiththesmallestfeaturesizedownto23nm.Thismethodoffersmanyuniqueadvantages,suchasenablingthedetectiontobenon-invasive,dynamic,real-time,andlabel-free,aswellasleadingtomorefunctionalitiesinambientairandliquidenvironments,whichextendsthenano-scaleobservationpowertoabroadscopeinourlife.
出版日期
2018年01月11日(中国期刊网平台首次上网日期,不代表论文的发表时间)