简介:Aseriesofrhodium-modifiedMo-K/Al2O3catalystsampleswaspreparedbyvaryingtherhodiumloadingbetween0and1.0wt%andmaintainingmolybdenumandpotassiumcontentsasconstants.ThestructuresofthesampleswerecharaterizedbytechniquesofXRD.LRS.TPR,XPSandEXAFSandcorrelatedtothecatalyticpropertiesofthesamplesforalcoholsynthesisfromsynthesisgas,Itwasfoundthat.intheoxidicrhodium-modifiedsamples.astronginteractionoftherhodiummodifierwiththesupportedK-Mo-Ospeciesoccurs.Thisinteractionfacilitatesthesulfidationandreductionofthesupportedoxo-molybdenumandleadstoadecreaseinthesizeofthemolybdenumspeciesandstabilizationofthecationicrhodiumspeciesonthesamplesduringsulfidation.Uponsulfidation.Thesulfidedmolybdenumspeciesintherhodium-freesampleismanlypresentaslargepatechesofMoS2-likeslabswiththeirbasalsulfurplanesinteractingwiththesupportsurface.Withthemodiricationofrhodiumtothesamples.ThesupportedMoS2-likespeciesbecomeshighlydispersed.asrevealedbythedecreaseintheaveragesizeofthesulfidedmolybdenumspecies.TheinteractionoftherhodiumspecieswiththemolybdenumsomponentmaycausethebasalplanesoftheMoS2-likespeciestobecomeorientedperpendiculartothesupportsurfaceduetofavorablebondingoftheMoS2edgeplanestothesupportthroughMo-O-Albonds.Incomparisonwiththesulfidedsamplefreeofrhodium.thepropertiesoftherhodium-modifiedsamplesforalcoholsynthesisfromsynthesisgasaremuchimproved.Itmostprobablyresultsfromthesynergicinteractionoftherhodiumwiththemolybdenumspeciesthatgivesrisetotheappearanceofthecatalyticallyactivesurfacesofsites.Theco-existenceofcationicandmetallicrhodiumstabilizedbythisinteractionmayberesponsiblefortheincreasedselectivityfortheformationofC2+alcohols.
简介:Themicroscopiceffectivechargesinmirrornuclei51Mnand51Feareinvestigatedwiththeparticle-vibrationcouplingmodelbasedontheself-consistentSkyrme-Hartree-Fockandcontinuumrandom-phase-approximationapproaches.Theisovectorpartsarepredictedtobearound0.15,andtheprotoneffectivechargesarearound1.25e,whichislessthantheempiricalvalueofeeffp=1.5e.Themicroscopiceffectivechargesinneutronrich51Mnareabout10%lessthanitsprotonrichmirror.TheseeffectivechargesarecombinedwiththeshellmodeltocalculatethereducedelectricquadrupoletransitionprobabilityB(E2)valuesin51Mnand51Fe.ItturnsoutthatthemicroscopiceffectivechargeshavewellreproducedtheB(E2)valuesanditsratiointheterminatingstates.
简介:本文介绍了在法国900MWeCP1-CP2系列核电机组定期安全审查中制定安全重要设备清单时确定安全分级所用的原则和方法。除了对分级清单增补机械设备和电气设备项目外,还引入了安全重要的非安全级(IPS—NC)设备的概念、原则和有关要求。
简介:采用X-射线吸收近边结构(XANES)和扩展X-射线吸收精细结构(EXAFS)技术,对用不同原料盐和不同焙烧温度制得的Co/γ-Al2O3催化剂中钴的微观结构进行了详细的表征。XANES结果表明,以硝酸盐为原料盐于500℃焙烧的样品Co(N)-500,其Co-K边的近边结构与标样Co3O4相似,而其它样的近边结构则与标样CoAl2O4相似。随焙烧温度提高。在吸收边前的弱吸收峰(1s→3d)逐渐增强。在吸收阈值处,主吸收峰(1s→4p)的分裂变得更明显,950℃焙烧的样品,在主吸收峰上升过程中出现了肩峰(1s→4s)。这些特征表明,样品中钴主要以Co^2+离子形式存在。钴离子与载体作用的加强,使非化学计量的尖晶石相在结构上与化学计量的CoAl2O4越来越接近。EXAFS结果表明,样品Co(N)-500中,钴主要以Co3O4的形式存在。其第一配位壳层Co-O配位数明显低于标样Co3O4,说明该相具有较高的分散性。其它所有样品中,钴主要以非化学计量的尖晶石相存在,其第一配位壳层Co-O配位数随焙烧温度从500℃提高到950℃,与标样CoAl2O4越来越接近;相同焙烧温度下,从醋酸钴制得的Co(A)系列样品更容易形成Co-Al尖晶石相。XANES和EXAFS结果很好地说明了前文中样品对CO氧化和乙烯选择还原NO反应的活性规律。
简介:Fe2O3nanoparticlescoatedwithsodiumdodecylbenzenesulphonate(DBS)orcetyltrimethylammoniumbromide(CTAB)werepreparedbyusingamicroemulsionmethodinthesystemwater/toluene.Thenanoparticleswerecharacterizedbymeansoftransmissionelectronmicroscopyandaverageparticlesizesof5.0nmand6.0nmwerefoundforDBS-modifiedandCTAB-modifiednanoparticlesrespectively.Thelocalatomicstructuresoftheseiron(Ⅲ)oxidenanoparticleswereprobedbyusingtheextendedx-rayabsorptionfine-structuretechnique.FeKabsorptionspectrawerecollectedatbeamline4W1BofBeijingSynchrotronRadiationFacility.Astructurealmodelwasproposedfordescribingtheiratomicstructures.TheFe-ObondlengthatthesurfaceofDBS-coatedFe2O3nanoparticleswasfoundtobesimilartothatinbulkFe2O3.buttherewasabout0.04AexpansionfortheCTAB-coatedFe2O3nanoparticles.Onthebasisofthemodelproposedinthispaper,thethicknessesofthesurfacelayerswereestimatedtobe0.5nmand0.7nm.respectively,fortheDBS-coatedandCTAB-coatedFe2O3nanoparticles.Theanharmonicityoftheatomicvibrationandtheasymmetryofatom-pairdistributionwerefoundtobelargeratthesurfaceofthenanoparticlesthaninthebulkmaterial,whiletheDebye-Wallerfactorsarealmostthesameforthesurfaceandthecorepartsofthenanoparticles.Itcanbeconcludedthattheatomicstructureofthenanoparticlesurfaceisordered.buttheatom-paridistributionisasymmetric.