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附件方面有关论文范本,与EI收录文情况相关论文查重软件
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Accessionnumber:20164813442918
Title:Au@Ptnanostructuresasoxidaseandperoxidasemimeticsforuseinimmunoassays
Authors:He,Weiwei1,3,Liu,Ying2,Yuan,Jinshan2,Yin,Jun-Jie4,Wu,Xiaochun1,Hu,Xiaona1,Zhang,Ke1,Liu,Jianbo1,Chen,Chunying2,Ji,Yinglu1,Guo,Yuting1
Authoraffiliation:
1CASKeyLaboratoryofStandardizationandMeasurementforNanotechnology,NationalCenterforNanoscienceandTechnology,Beijing100190,China
2CASKeyLaboratoryforBiologicalEffectsofNanomaterialsandNanosafety,NationalCenterforNanoscienceandTechnology,Beijing100190,China
3InstituteofSurfaceMicroandNanoMaterials,XuchangUniversity,Xuchang461000,China
4CenterforFoodSafetyandAppliedNutrition,FoodandDrugAdministration,CollegePark,MD20740,UnitedStates
Correspondingauthor:Yin,J.-J.(JunJie.Yin@fda.hhs.gov)
Sourcetitle:Biomaterials
Abbreviatedsourcetitle:Biomaterials
Volume:32
Issue:4
Issuedate:February2016
Publicationyear:2016
Pages:1139-1147
Language:English
ISSN:01429612
CODEN:BIMADU
Documenttype:Journalarticle(JA)
Publisher:ElsevierLtd,LangfordLane,Kidlington,Oxford,OX51GB,UnitedKingdom
Abstract:Inthispaper,wedemonstratedthatAunanorodscoatedwithashellposedofPtnanodots(Au@Ptnanostructures)exhibitedintrinsicoxidase-like,peroxidase-likeandcatalase-likeactivity,catalyzingoxygenandhydrogenperoxidereductionandthedismutationdepositionofhydrogenperoxidetoproduceoxygen.Basedonthesefindings,weestablishedanAu@Ptnanostructuresbasedenzymelinkedimmunosorbentassay(ELISA)forthedetectionofmouseinterleukin2(IL-2).Inparisonwithnaturalenzymes,Au@Ptnanostructureshaveadvantagesoflowcost,easypreparation,betterstability,andtunablecatalyticactivity(paredwithHRP),whichmakethemapromisingenzymemimeticcandidateandmayfindpotentialapplicationsinbiocatalysis,bioassays,andnano-biomedicinesuchasreactiveoxygenspecies(ROS)-relatedfields(anti-agingandtherapeuticsforneurodegenerativediseasesandcancers).2016ElsevierLtd.
Numberofreferences:40
Mainheading:Nanorods
Controlledterms:Catalystactivity-Enzymes-Hydrogen-Hydrogenperoxide-Oxidation-Oxygen-Platinum
Uncontrolledterms:Anti-aging-Aunanorods-Biocatalysis-Catalase-Catalase-likeactivity-Catalyticactivity-Dismutation-Enzymelinkedimmunosorbentassay-Hydrogenperoxidereduction-Immunoassays-Interleukin-2-Lowcosts-Mimetics-Nanodots-Naturalenzyme-Neurodegenerativedisease-Oxidase-Peroxidase-Potentialapplications-Reactiveoxygenspecies
Classificationcode:547.1PreciousMetals-761Nanotechnology-802.2ChemicalReactions-804ChemicalProductsGenerally-933SolidStatePhysics
DOI:10.1016/j.biomaterials.2016.09.040
Database:Compendex
Accessionnumber:20164913460362
Title:InfluenceofglucoseonthestructuralandopticalpropertiesofZnOthinfilmspreparedbysol-gelmethod
Authors:Zhang,Yidong1,Jia,Huimin1,Li,Pinjiang1,Yang,Fengling1,Zheng,Zhi1
Authoraffiliation:
1InstituteofSurfaceMicroandNanoMaterials,XuchangUniversity,Xuchang,461000,China
Correspondingauthor:Zheng,Z.(zhengzhi9999@yahoo..)
Sourcetitle:OpticsCommunications
Abbreviatedsourcetitle:OptCommun
Volume:284
Issue:1
Issuedate:January1,2016
Publicationyear:2016
Pages:236-239
Language:English
ISSN:00304018
CODEN:OPCOB8
Documenttype:Journalarticle(JA)
Publisher:Elsevier,P.O.Box211,Amsterdam,1000AE,Netherlands
Abstract:Inthiswork,ZnOthinfilmswerepreparedbysol-gelmethodonglasssubstratesfollowedbycalcinationsat500°Cforanhour.Theeffectofglucoseonthestructureandopticalpropertiesofthefilmswasstudied.ThestructuralcharacteristicsofthesampleswereanalyzedbyX-raydiffractometer(XRD)andatomicforcemicroscope(AFM).TheopticalpropertieswerestudiedbyaUV-visiblespectrophotometer.TheresultsshowthatsomeofthepreparedZnOthinfilmshaveahighpreferentialorientedc-axisorientationwithpacthexagonalwurtzitestructureduetoaproperamountofglucoseintroducing.AfterintroducingtheglucoseadditiveinZnOcolloids,theintensityof(002)peak,thetransmittance,andtheopticalbandgapoftheZnOthinfilmsincreasesbecauseoftheenhancedZnOcrystallization.Onthecontrary,theabsorbance,thefilmthickness,andthesurfaceroot-mean-square(RMS)roughnessoftheZnOthinfilmsdecreases.TheglucoseadditivecouldnotonlyimprovethesurfaceRMSroughnessandmicrostructureofZnOthinfilms,butalsoenhancethetransmittanceandtheenergybandgapmoreeasily.2016ElsevierB.V.Allrightsreserved.
Numberofreferences:35
Mainheading:Opticalfilms
Controlledterms:Energygap-Filmpreparation-Gels-Glucose-Metallicfilms-Opticalproperties-Sol-gelprocess-Sol-gels-Sols-Substrates-Surfaceroughness-Thinfilms-Vapordeposition-Zincoxid
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