简介:NanostructuredandconventionalAl2O3-13wt%TiO2coatingsweremanufacturedbyairplasmaspray.FrictionandwearbehaviorsofcoatingswereinvestigatedatroomandelevatedtemperaturesusinganSRVweartestmachine.Thenanostructuredcoatinghas"tworegions"microstructure,whiletheconventionalcoatinghastypicallayeredmicrostructurewithobviousinterfacesamongsplats.Thecoefficientoffrictiondecreaseswithrisingoftemperaturebecauseoftheformationoftribo-layeratelevatedtemperatures.Thewearresistanceofthenanostructuredcoatingsishigherthanthatoftheconventionalcoating,andthewearthresholdofappliedloadis30Nforconventionalcoatingand40Nfornanostructurecoating.Thewearresistancedifferenceisrelatedtothe"tworegions"microstructureofnanostructurecoating,whichcouldbluntorbranchthecrackspropagation.Inourtestranges,thewearratesrisingaremoresensitivewiththeappliedwearloadrisingthanwiththetemperaturerising.
简介:Chemicalreductionmethodwasemployedtopreparenano-sizedSn2SbNialloycompositesusedasanodematerialforrechargeablelithiumionbatteries.Thisstrategywasadoptedtocombinethevirtuesofbothactive/inactiveandactive/activealloystofabricateaSn2SbNialloypowderwithtwoactivecomponentsandoneinactivecomponent.Thetwoactivecomponentscanrealizethehighcapacityfeatureofelectrodeandcanmakethevolumechangeofelectrodetakeplaceinastepwisemannerduetothedifferentlithiationpotentialsoftwoactivecomponents,leadingtoastablecyclingperformance.Sn2SbNialloyprovidesareversiblespecificcapacityover640mA·h/gwithanexcellentcyclicability.TheSn-Sb-Nialloycompositematerialshowstobeagoodcandidateanodematerialforthelithiumionbatteries.
简介:ThermodynamicmodelsofcalculatingmassactionconcentrationsforstructuralunitsorioncouplesinRbCl-H2ObinaryandRbCl-RbNO3-H2Oternarystrongelectrolyteaqueoussolutionsweredevelopedbasedontheionandmoleculecoexistencetheoryat298.15K.Atransformationcoefficientisneededtocomparethecalculatedmassactionconcentrationandthereportedactivitybecausetheyareobtainedatdifferentstandardstatesandconcentrationunits.TheresultsshowthatthetransformationcoefficientsbetweenthecalculatedmassactionconcentrationsandthereportedactivitiesofthesamestructuralunitsorioncouplesinRbCl-H2ObinaryandRbCl-RbNO3-H2Oternarystrongelectrolyteaqueoussolutionschangeinaverynarrowrange.ThetransformedmassactionconcentrationsofstructuralunitsorioncouplesinRbCl-H2Obinarysystemareingoodagreementwiththereportedactivities.ThetransformedmassactionconcentrationsofRbClandRbNO3inRbCl-RbNO3-H2Oternarysolutionarealsoingoodagreementwiththereportedactivities,aRbCland3RbNOa,withdifferenttotalionicstrengthsas0.01,0.05,0.1,0.5,1.0,1.5,2.0,3.0and3.5mol/kg,respectively.AllthoseresultsmeanthedevelopedthermodynamicmodelofstrongelectrolyteaqueoussolutionscanreflectstructuralcharacteristicsofRbCl-H2ObinaryandRbCl-RbNO3-H2Oternarystrongelectrolyteaqueoussolutionsandthemassactionconcentrationalsostrictlyfollowsthemassactionlaw.
简介:多层的Nb2O5部nanoporous电影被控制阳极化过程成功地在包含4的乙烯乙二醇在Nb表面上综合?vol%HF并且2?vol%H2O2电解质。nanoporous电影被地排放扫描详细描绘电子显微镜学(FESEM),传播电子显微镜学(TEM),和X光检查衍射(XRD)。Nb2O5部nanoporous电影与~的方面墙厚度有多层的形态学5?nm,有~的一条直径的不规则的毛孔25?nm,并且一段多达7.39?m,取决于阳极化时间。为多层的Nb的机制<潜水艇class=“a-plus-plus”>2O<潜水艇class=“a-plus-plus”>5nanoporous形成也被讨论。这些nanoporous材料能在太阳能电池,煤气的传感器,催化剂,光过滤器,和电容器的地里是很有用的。
简介:LiCoO2thinfilms,whichcanbeusedasacathodematerialinmicrobatteries,weredepositedusingradiofrequency(r.f.)magnetronsputteringsystemfromaLiCoO2targetandinanO2+Aratmosphere.ThefilmswerecharacterizedbyvariousmethodssuchasXRD,SEMandAFM.TheLiCoO2filmswereannealedinairat300,500,700and800℃respectively.Theeffectoftheannealingtemperatureonthestructure,thesurfacemorphologyandtheelectrochemicalpropertiesofthefilmswereinvestigated.TheLiCoO2thinfilmdepositedatroomtemperatureisamorphousandhassmallergrainsize.Withincreasingofannealingtemperature,thecrystallinityofthefilmsispromoted.Whentheannealingtemperatureincreasesto700℃,thefilmshaveaperfectcrystallineLiCoO2phase.TheLiCoO2thinfilmwithoutannealinghasnodischargeplateauandsmalldischargecapacity(about27μAh·cm-2μm).Thedischargecapacityincreaseswiththeincreasingofannealingtemperatureandreaches47μAh·cm-2μmforthefilmannealedwith700℃,whichalsoshowsthetypicaldischargeplateauof3.9V.ThecycleperformanceofLiCoO2thinfilmsofasgrownandannealedatdifferenttemperatureswerestudied.Inthecaseofthefilmwithoutthermaltreatment,thecapacityfadingismuchfasterthanthatofthefilmannealedatdifferenttemperature,showingabout40%capacitylossonlyafter25cycles.However,inthecaseofthefilmannealedat700℃,thecapacityreachestosteadystategraduallyandmaintainedconstantlywithcycling.After25timescycling,thedischargecapacityofthefilmannealedat700℃decreasestoabout36.9μAh·cm-2·μm,only0.8%capacitylosspercycle.
简介:InordertoimprovethehydrogenstoragepropertiesofLiBH_4-MgH_2composite,twodifferentkindsofNb-basedcatalysts,NbCandNbF_5,wereaddedtoLiBH_4-MgH_2compositebyballmilling,andtheeffectofcatalystsonhydrogenstoragepropertiesofthemodifiedLiBH_4-MgH_2systemwasinvestigated.TheexperimentalresultsshowthatLiBH_4-MgH_2compositeisatwo-stepdehydrogenationprocess,andNb-basedcompoundscanremarkablyenhanceitsdehydrogenationkinetics.Forthecompositewithoutadditionofcatalysts,thestartingdecompositiontemperatureforthefirstdehydrogenationstepisaround320℃,andthereisalongperiodofincubationtime(around220min)fortheoccurrenceoftheseconddecompositionstepevenathightemperatureof450℃.Itneedsmorethan10htocompletethedecompositionprocessandreleasearound9wt%H_2.Afteradditionof5mol%NbF_5,thestartingdecompositiontemperatureforthefirstdehydrogenationstepisaround150℃,thereisnoincubationtimefortheseconddecompositionstep,andittakesaround40mintocompletethesecondstepandreachesatotaldehydrogenationcapacityof9.5wt%.NbF_5hasbettercatalyticeffectthanNbC.Basedonthehydrogenation/dehydrogenationbehaviorsandstructuralvariation,themechanismofcatalyticeffectwasdiscussed.
简介:ScanningElectronMicroscopyStudiesofYBa_2Cu_3O_(7-δ)SuperconductorsShaWei(沙维)(DepartmentofCivilEngineering,TheQueen′sUniversit...
简介:采用反应合成方法制备孔隙度为54.3%的高纯Ti3SiC2多孔材料,并研究其在400~1000°C下空气中的氧化行为。采用热重-差热分析法、扫描电镜、X射线衍射技术、能谱仪、拉曼光谱、BET比表面分析法和孔结构测试等研究Ti3SiC2多孔材料在氧化前后的氧化动力学、物相组成、微观形貌以及孔结构参数演变。结果表明:形成不同晶型TiO2氧化产物是影响Ti3SiC2多孔材料抗氧化性及孔结构稳定性的主要因素。由于氧化产物体积应力以及热应力的存在,因此,在400~1000°C试验过程中试样表面均出现开裂现象。其中,在400~600°C下形成的锐钛矿型TiO2会导致Ti3SiC2晶粒出现严重开裂,并引发快速氧化以及孔径和透气度的异常减小。600°C以上在氧化过程中主要形成金红石型TiO2,开裂现象得以缓解,但是氧化膜的外延生长大幅降低了Ti3SiC2多孔材料孔隙的连通性。
简介:AseriesofnovelAgCl/Ag2CO3heterostructuredphotocatalystswithdifferentAgClcontents(5wt%,10wt%,20wt%,and30wt%)werepreparedbyfacilecoprecipitationmethodatroomtemperature.TheresultingproductswerecharacterizedbypowderX-raydiffraction(XRD),scanningelectronmicroscopy(SEM),X-rayphotoelectronspectroscopy(XPS),andultraviolet–visiblediffusereflectancespectroscopy(UV–VisDRS),respectively.Thephotocatalyticactivityofthesampleswasevaluatedbyphotocatalyticdegradationofmethylorange(MO)underUVlightirradiation.WiththeoptimalAgClcontentof20wt%,theAgCl/Ag2CO3compositeexhibitsthegreatestenhancementinphotocatalyticdegradationefficiency.Itsfirst-orderreactionrateconstant(0.67h-1)is5.2timesfasterthanthatofAg2CO3(0.13h-1),and16.8timesfasterthanthatofAgCl(0.04h-1).TheformationofAgCl/Ag2CO3heterostructurecouldeffectivelysuppresstherecombinationofthephoto-generatedelectronandhole,resultinginanincreaseinphotocatalyticactivity.
简介:为了研究氧流动的影响,在TiO2薄电影的结构、光的性质上评价,玻璃上的TiO2电影被反应磁控管劈啪作响扔。微观结构和光性质被X光检查diffractometry,AFM和紫外力的发射度光谱学分别地测量。这些电影以10mL/min的氧流动率扔了的结果表演有最低粗糙和最高的发射度。到氧流动评价的更长的波长的吸收角度移动从5~10mL/min增加,然后从10~30mL/min作为氧流动率增加到更短的。乐队差距是3.38eV,它在实验是将近不变的。为在oxyge流动率的10mL/min扔的TiO2薄电影,有nano水晶的结构,它对反思考(AR)合适在太阳能电池结构系统的涂层。
简介:Carbon-coatedlithiummanganesesilicate(Li2MnSiO4/C)nanoparticlesweresynthesizedbypolyolprocess.X-raydiffraction(XRD)patternsoftheobtainedmaterialsexhibitagoodfitwiththatoftheLi2MnSiO4phase.Fieldemissionscanningelectronmicroscopy(FESEM)imagesoftheobtainedsamplesshowthattheparticlesizeisonlytensofnanometers.Thehighresolutiontransmissionelectronmicroscopy(HRTEM)analysisshowsthattheLi2MnSiO4nanoparticlesaresurroundedbyaverythinfilmofamorphouscarbon.Thecompositepreparedthroughpolyolprocessshowsgoodperformanceascathodematerialsinlithiumcellsatroomtemperature.ThechargecapacityoftheLi2MnSiO4/Csamplesis219mAh/g(about1.3Li+perunitformulaextracted),andthedischargecapacityis132mAh/g(about0.8Li+perunitformulainserted)inthefirstcycleinthevoltagerangeof1.5-4.8V.Agoodcapacitycyclingmaintenanceof81.8%after10cycleswasobtained.