简介:利用角分辨紫外光电子谱对乙烯和乙炔气体在Ru(1010)表面的吸附及与K的共吸附的研究结果表明:当衬底温度超过200K,乙烯即发生脱氢反应,σCH和σCC能级均向高结合能方向移动。在室温下,σCH和σCC能级位置与乙炔在Ru(1010)表面的吸附时的分子能级完全一致。乙烯发生脱氢反应后的主要产物为乙炔。衬底温度从120K到室温,Ru(1010)表面上乙炔的σCH和σCC能级均未发现变化。室温下乙炔仍然可以在Ru(1010)表面以分子状态稳定吸附。在有K的Ru(1010)表面上,室温时σCC谱峰几乎。碱金属K的存在促进了乙炔的分解。
简介:Moleculardynamicssimulationswereperformedtostudytheinteractionbetweenatomichydrogenandsiliconcarbide.Inthepresentstudy,wefocusontheeffectofthesurfacetemperatureonHinteractingwithsiliconcarbide.ThesimulationresultsshowthattheretentionofHatomsinthesampledecreaseslinearlywithincreasingsurfacetemperature.ThedepthprofileanalysisshowsthatthesampleismodifiedbyHbombardment,andthedensityofHatomsisgreaterthanthoseofSiandCatomsneartheinterfaceregionbetweentheH-containingregionandthebulk.However,nearthesurfaceregionthedensitiesofH,SiandCatomsarealmostequivalent.Inthemodifiedlayer,thebondsconsistofSi-CandSi-HandC-H.ThefractionofSi-Cbondsisthegreatest.OnlyafewC-Hbondsarepresent.
简介:Ahighlyreliableinterfaceofself-alignedbarrierCuSiNthinlayerbetweentheCufilmandthenano-porousSiC:H(p-SiC:H)cappingbarrier(k=3.3)hasbeendevelopedinthepresentwork.Withtheintroductionofself-alignedbarrier(SAB)CuSiNbetweenaCufilmandap-SiC:Hcappingbarrier,theinterfacialthermalstabilityandtheadhesionoftheCu/p-SiC:Hfilmareconsiderablyenhanced.AsignificantimprovementofadhesionstrengthandthermalstabilityofCu/p-SiC:H/SiOC:Hfilmstackhasbeenachievedbyoptimizingthepre-cleanstepbeforecap-layerdepositionandbyformingtheCuSiN-likephase.ThiscaplayeronthesurfaceoftheCucanprovideamorecohesiveinterfaceandeffectivelysuppressCuatommigrationaswell.
简介:Thedeviceofacetyleneproductionbyhydrogen(H-)plasmapyrolysiscoalisexaminedanddevelopednotonlyforstudyingtheapplicationoflowtemperatureplasmabutalsoforstudyingthecleanuseofcoal.Thepower-supplycontrolsystemisusedtoensuresupplyingasteadyenergytogenerateandmaintaintheplasmaelectricarcofthedevice.Thehardwareconfigurationandthesoftwaredesignofthesystemaredescribedinthispaper.Verifiedbyexperiments,thissystemcanmeettherequirementsofreal-timeperformance,reliabilityandextensibilityforthedevice.
简介:AnovelfittingprocedureisproposedforabetterdeterminationofH2rovibrationaldistributionfromtheFulcher-abandspectroscopy.WehaverecalculatedthetransitionprobabilitiesandtheresultsshowthattheydeviatefromFranck-Condonapproximationespeciallyforthenon-diagonaltransitions.Wealsocalculatedthecompletesetsofvibrationallyresolvedcrosssectionsforelectronimpactd3∏u-X3∑gtransitionbasedonthesemi-classicalGryzinskitheory.AnexampleofexperimentalstudyconfirmsthatcurrentapproachprovidesatoolforabetterdiagnosticsofH2rovibrationaldistributioninelectronicgroundstate.
简介:用延展X光吸收精细结构光谱(EXAFS)研究了重金属Zn(Ⅱ)在水锰矿(Y-MnOOH)上吸附产物的微观结构及其吸附机制。结果表明,Zn(Ⅱ)-水锰矿体系中(pH7.5,0.1MNaNO3介质,25℃),Zn(Ⅱ)离子主要是通过Zn-O键结合到水锰矿固体表面上的,平均Zn-O原子间距为1.9984-0.010A(n=3)。同时,第二配位层(Zn-Mn相互作用)的EXAFS图谱解新证明存在两个典型的Zn-Mn原子间距,即R1=3.08±0.024A(n=3)和R2=3.54±0.018A(n=3)。这两个Zn-Mn原子距分别对应于水锰矿结构单元MnO6八面体与Zn水合离子ZnO多面体结合的两种方式,即边-边结合与角-角结合。边-边结合是较强的吸附位,Zn-Mn原子距较短(Rl=3.08A),吸附较不可逆。角-角结合是较弱的吸附位,Zn-Mn原子距较长(R2=3.54A),吸附较为可逆。宏观的吸附一解吸热力学实验表明Zn(Ⅱ)在水锰矿上的吸附是不可逆的,EXAFS结果指出这种不可逆性主要是由Zn水合离子中Zn0多面体与水锰矿结构单元MnO6八面体之间的边-边结合所导致的。