简介:Theself-diffusionofREisotopesinporouscationexchangerswithvariousparticlesizeandinseveralMR-typeresinsnEDTAsolutionsofrareearthswasstudied.TheintraparticleeffectivediffusivitiesDeofCe,TbandYbweremeasuredbyisotopicionexchange,DewasaffectedbytheconcentrationofthebulksolutionandwasseparatedintoasolidphasediffusivityDgandamacroporediffusivityDpusingKataoka′sdidisperseporemodel.Itshowsthatthemodelcanbeappliedtoexpressthekineticprocess;DemuchlargerthanDeandDgisnearlyequaltoDe.Solidphaseresistanceisamajorcomponentofresistancetotheexchangeforporousresins.
简介:Three-dimensional(3D)flowerlikehierarchicalZn2GeO4andMn2+-dopedZn2GeO4microstructureshavebeenpreparedbyafacilehydrothermalapproach.X-Raydiffraction(XRD),fieldemissionscanningelectronmicro-scopy(FESEM),transmissionelectronmicroscopy(TEM)andphotoluminescence(PL)spectrometrywereemployedtocharacterizethesamples.SuchflowerlikehierarchicalZn2GeO4microstructureswithanaveragediameterof3―4μmwerefoundtobeconstructedbyabundantsinglecrystallinenanorodsofabout90nmindiameter.TheluminescentpropertiesofZn2GeO4:xMnphosphorswithdifferentcontentsofMn2+asanactivatorwereinvestigated.TheMn2+-dopedsamplesshowedgreenluminescencecorrespondingtothed-dtransitionofMn2+undertheirradiationofUVlight.Theredshift(from531nmto538nm)inλemwithincreasingMn2+contentwasobservedintheluminescentspectra,whichshouldbeattributedtoaweakcrystalfieldbecauseofthesubstitutionofZn2+byMn2+atadistortedtetrahedrallatticesite.
简介:采用氯化铵-氨水体系溶解试样,干过滤后,向移取的滤液中加入氯化钡和硫酸共沉淀铅离子,过滤分离硫酸铅沉淀,向滤液中加人抗坏血酸、氟化钾、硫代硫酸钠等掩蔽剂掩蔽少量干扰元素。在pH=5~6的乙酸-乙酸钠缓冲溶液中,以二甲酚橙为指示剂,用EDTA标准滴定溶液滴定测得结果为氧化锌、水溶性锌和镉合量,扣除由原子吸收光谱法测得的水溶性锌量和镉量,即为氧化锌量。对总氨浓度、氯化铵-氨水浓度比、溶液加入量、搅拌时间、共存离子干扰、精密度等进行了实验,建立了EDTA滴定法测定含锌物料中氧化锌物相的分析方法。实验证明,氧化锌含量在24%~83%时,方法精密度(RSD)为0.25%~0.54%,加标回收率在99%~104%,完全满足含锌物料中氧化锌的测定要求。
简介:Humanextracellularsuperoxidedismutase(hEC-SOD)isasecretedtetramericproteininvolvedintheprotectionofahumanbodyfromoxygenfreeradicals.Itsthree-dimensionalstructurehasnotbeenconfirmed,hEC-SODcouldn′tbeexpressedinE.coll.Weconstructedahybridenzyme,whichcomprisestheNterminalandC-terminaldomainsfromhEC-SOD,fusedittohumanCu,Zn-SOD.ThehybridenzymeisexpressedsuccessfullyinE.coli.Further,weanalyzedtheexpressionofhEC-SODinE.colibymRNAdifferentialdisplaying.
简介:Copper-dopedZnOnanoparticlesweresynthesizedbythesol-gelmethod.TheX-raydiffraction(XRD)resultshowsthatZn1-xCuxO(x≤0.04)samplesaresinglephasewithZnO-likewurtzitestructure,whilethesecondaryphaseCuisobservedinaZn0.95Cu0.05Osample.MagneticmeasurementsindicatethatZn1-xCuxO(x≤0.04)samplesareferromagneticatroomtemperature.Astronggreenpeak(520nm)wasobservedexceptforUVbandpeakinphotoluminescent(PL)spectrumofZn0.98Cu0.02O.
简介:Zn2SnO4(ZTO)nanowireswithauniquedendriticnanostructureweresynthesizedviaasimpleone-stepthermalevaporationandcondensationprocess.ThemorphologyandmicrostructureoftheZTOnanodendritehavebeeninvestigatedbymeansoffieldemissionscanningelectronmicroscopy(SEM),x-raydiffraction(XRD)andhigh-resolutiontransmissionelectronmicroscopy(HRTEM).SEMobservationrevealedtheformationofbranchednanostructuresandshowedthateachbranchexhibitedauniqueperiodicstructureformedbyarowofoverlaidrhombohedraofZTOnanocrystalsalongtheaxisofthenanobranch.HRTEMstudiesdisplayedthatthebranchesgrewhomoepitaxiallyassingle-crystallinenanowiresfromtheZTOnanowirebackbone.ApossiblegrowthmodelofthebranchedZTOnanowiresisdiscussed.Tosuccessfullypreparebranchedstructureswouldprovideanopportunityforbothfundamentalresearchandpracticalapplications,suchasthree-dimensionalnanoelectronics,andopto-electronicnanodevices.
简介:制备了锌修饰铂电极,建立了一种新的测定Zn(Ⅱ)的示波双电位滴定法。在六次甲基四胺溶液(1.0mol/L)中(pH=5.5),用制备的修饰铂电极作为双指示电极,以EDTA标准溶液滴定Zn(Ⅱ),利用示波器屏幕上荧光点的显著最大位移指示滴定终点。在3.0×10^-4~2.0×10^-3mol/L的浓度范围内,Zn(Ⅱ)的回收率为99.9%~100.2%。该修饰电极具有良好的稳定性和重现性,对Zn(Ⅱ,1.0×10-3mol/L)溶液连续11次测定,所得终点电位值均在10.1mV左右,其相对标准偏差(RsD)为0.5%。用来测定含锌的实际样品,其结果与指示剂法测定的值基本一致。
简介:Cu2ZnSnS4(CZTS)基于太阳能电池被microelectronic和photonic结构(AMPS-1D)的一个维的太阳能电池模拟软件分析数字地模仿。在模拟使用的设备结构是Al/ZnO:Al/nZn(O,S)/pCZTS/Mo。工作是在ZnO1xSx缓冲区层,它将产出更高的变换效率。由改变S/(S+O)比率x,在CZTS/Zn的传导乐队偏移量(CBO)(O,S)如果比率的完整的范围被考虑,接口能从0.23eV到1.06eV。当时,0.23eV的最佳的CBO能被完成ZnO1xSx缓冲区有S/(S+O)0.6的比率。太阳能电池效率首先与增加硫内容增加然后为x突然地减少>0.6,它由我们的建议的最佳的硫内容x=到达17.55%的最高的价值0.6。我们的结果在处理ZnO1x为高效率CZTS的Sx缓冲区层免职太阳能电池。
简介:密度功能的理论(DFT)学习被执行了为[Znn?1Al(OH2)n+6(哦)2n?2]3+(n=36)并且[Znn?1Al(OH2)2n?2(哦)2n?2]3+(n=7)簇,它包括象brucite一样格子的基本结构的信息在范围与Zn/Al臼齿的比率(R)Zn/Al分层的双氢氧化物(LDH)组织26,以便在二进制Zn/AlLDH的结构和稳定性上理解Zn/Al比率的效果。基于几何参数的系统的计算和簇模型的形成精力,Zn2+和Al3+阳离子用不同R价值在象brucite一样结构同态地代替Mg2+是可能的,这被发现,在簇和单位房间参数的微观结构导致差别一ofZn/AlLDH。几何学的分析并且在三价的Al3+或二价的Zn2+阳离子附近结合表明Al3+在当时,决定微观结构性质,形成和相应ZnRAl簇的结合的稳定性比Zn2+起一个更重要的作用R<5,当Zn2+的影响在R5的情况中成为主导的因素时。这些调查结果在对实验的好同意。这个工作提供阳离子的作文怎么影响包含Zn二进制LDH层的微观结构和稳定性的详细电子水平的理解。
简介:TheinfluenceofNa2SO4ontheformationofZnOwhiskerswasinvestigatedinthispaper.ZnOwhiskerswithaspectratiosofupto50weresynthesizedbydissolvingε-Zn(OH)2precursorinNaOH/Na2SO4solutionatroomtemperature,followedbyagingoftheresultingsolutionat140℃for6h.Fouriertransforminfraredspectroscopy,Ramanspectroscopy,andX-rayphotoelectronspectroscopyanalysesrevealedthatSO42-ionswereprimarilyadsorbedonthe(100)planeoftheZnOwhiskersviaanouter-spherecomplexconfiguration(O-H…O),therebypromotingtheone-dimensionalgrowthofZnOwhiskersalongthec-axis.