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.
简介:CuO-CoO-MnO/SiO2nanocompositeaerogels被经由大音阶的第五音胶化过程和乙醇supercritical弄干技术作为先锋把tetraethylorthosilicate(TEOS)用作Cu,公司和Mn醋酸盐的Si来源,和水的答案准备。gelatination机制被原子磁性的回声(NMR)和X光检查光电子光谱学(XPS)调查。CuO-CoO-MnO/SiO2nanocompositeaerogels的微观结构和作文被扫描电子显微镜学(FE-SEM)的地排放描绘,传播电子显微镜学(TEM),电子散光谱学(版本)和XPS。特定的表面区域,毛孔尺寸和nanocompositeaerogels的毛孔尺寸分发被Brunauer-Emmett-Teller(赌注)方法决定。产品被煤气的层析(GC)分析。结果证明CuO-CoO-MnO/SiO2nanocompositeaerogels是多孔的,与10150nm,216nm的毛孔尺寸分布,7.68nm的一种平均毛孔尺寸,和664.4695.8m2/g的一个特定的表面区域的粒子尺寸分布。在nanocompositeaerogels的转变金属的臼齿的部分是0.71%-13.77%。这种结构是有利的不仅增加装载催化剂,而且作为cocatalysts充分利用转变金属氧化物的效果;CuO-CoO-MnO/SiO2nanocompositeaerogels能在diphenyl碳酸盐的更安全、环境友好的合成和催化作用的另外的地被用作一个新奇催化剂搬运人。
简介:TheCurietemperatureof(Nd1-xPrx)2Fe14CoyBcompounds(x=0,0.2,…,1.0andy=O,2,4,6,14)hasbeendeterminedwithACinitialsusceptibilitymeasurement.ItwasfoundthatthevariationsofCurietempera-turewithxisnotlinearfory=0and14,whereasitislinearforothervaluesofy.Thelatticeconstantsof(Nd1-xPrx)2Fet14BweredeterminedbyusingX-raydiffraction.Thelatticeexpansionwasmostlyalongthecaxis,whereasthatalongthea-axisremainedpracticallyzeroforthewholeseries.ItissuggestedthatPratomsmayshowsitepreferenceinR2M14Bcompounds(M=FeorCo).DuetothesubstitutionofCoforFe.thetendencyofsitepreferenceofPrbecomeslesspronounced,whichmaybeattributedtothedecreaseofdiffer-enceofcrystalelectricfield(CEF)actingonthetworareearthsiteswiththeintroductionofCoorFe.Incon-trasttothatofthePratoms,thesitepreferenceofCoiu(Nd(1-x)Prx)2Fe(14-y)CoyBcompoundsdoesnotdependonthecompositionoftherareearthsublattice(R=NdorPr).
简介:在Ce1-xDyx-ySryO2-δ体系中,研究了Dy和Se对总离子电导率的影响。在该体系中,使用麦芽糖和果胶作为有机前驱体,通过改性溶胶-凝胶工艺,在x=0.15,y=0.015,0.03和0.045的条件下,制备不同组分的导电体。采用X射线衍射谱的Rietveld拟合验证了导电体具有空间群Fm3m的立方结构。从SEM像可以看到具有明显晶界、相对均匀的晶粒。在150-500℃的温度范围和40Hz-1MHz的频率范围内,采用四探针交流阻抗法测量导电体的总离子电导率。与单掺杂的二氧化铈样品相比,Ce0.85Dy0.12Sr0.03O2-δ具有更高的电导率。
简介:HotcompressionbehaviorofTiC–Al2O3/AlcompositeswasstudiedusingtheGleeble-1500systematatemperaturerangeof300–550°Candatstrainraterangeof0.01–10.00s-1.TheassociatedstructuralchangeswerestudiedbyTEMobservations.Theresultsshowthatstressleveldecreaseswithdeformationtemperatureincreasingandstrainratedecreasing,whichcanberepresentedbyaZener–Hollomonparameterinanexponent-typeequationwithhotdeformationactivationenergyQof172.56kJ·mol-1.Dynamicrecoveryoccurseasilywhenstrainratesarelessthan10.00s-1.Dynamicrecrystallizationcanoccuratstrainrateof10.00s-1.
简介:NanocrystallineMg2Ni-typealloyswithnominalcompositionsofMg20Ni10–xCux(x=0,1,2,3,4,massfraction,%)weresynthesizedbyrapidquenchingtechnique.Themicrostructuresoftheas-castandquenchedalloyswerecharacterizedbyXRD,SEMandHRTEM.Theelectrochemicalhydrogenstorageperformancesweretestedbyanautomaticgalvanostaticsystem.ThehydridinganddehydridingkineticsofthealloysweremeasuredusinganautomaticallycontrolledSievertsapparatus.Theresultsshowthatalltheas-quenchedalloysholdthetypicalnanocrystallinestructureandtherapidquenchingdoesnotchangethemajorphaseMg2Ni.Therapidquenchingsignificantlyimprovestheelectrochemicalhydrogenstoragecapacityofthealloys,whereasitslightlyimpairsthecyclingstabilityofthealloys.Additionally,thehydrogenabsorptionanddesorptioncapacitiesofthealloyssignificantlyincreasewithrisingquenchingrate.
简介:这份报纸在极其细小的颗粒的WC-12%Co合金的磁性、机械的性质上处理codopedVC/Cr3C2和sintering温度的效果。结果证明在最佳的比例的做的VC/Cr3C2的synergistic行动提高坚硬和合金的横向的破裂力量(TRS),与更多的同类的微观结构。当合金是在1430点的sintered时?C并且与0.5%Cr3C2/0.2%VC,TRS到达3786MPa,坚硬是91.7HRA和比0.6m小的谷物尺寸。谷物生长上的数字分析在sintering过程期间证明在WC谷物边界并且Cr3C2溶解在公司上猛抛的两VC分阶段执行减少固体/液体的界面的精力,溶解和降水的过程极大地被延迟,WC谷物变粗被禁止。
简介:AZr-1.15wt%Cr-0.10wt%Fealloywasbeta-quenchedfrom1050℃toproduceasupersaturatedα′-phase,andthenheatedforvaryingtimesattemperaturesfrom650℃to760℃toprecipitateZr(CrFe)2.Athermoelectricpower(TEP)techniqueandtransmissionelectronmicroscopy(TEM)wereusedtomonitorthisprecipitationprocess.UsingtheJohnson-Mehl-Avramiequation,theTEPresultsandalineregressionmethod,theactivationenergyfordiffusionandthediffusioncoefficientofchromium(andFe)inα-Zrhavebeencalculatedover650℃~760℃.Thetemperaturedependenceofthediffusioncoefficient,DCr/α(cm2/s)isdescribedat650℃~760℃bytherelationshipformula.ThecoarseningoftheZr(CrFe)2particlesshowsat1/2dependenceofmeanparticlesizeonagingtime,t.Suchatimedependenceistypicalofcoarseningwhereatomtransferacrosstheinterfaceisrate-controlling.
简介:在自我组织的TiO2nanotubes(Pt-TiO2/Ti)上支持的铂nanoparticles用cathodic减小跟随的电气化学的阳极的氧化被准备。结构和Pt-TiO2/Tielectrocatalyst的化学自然被X光检查衍射(XRD)和扫描电子显微镜学(SEM)调查。XRD和SEM结果在nanotubularTiO2上显示铂的存在。磅存款的稳定性被周期的voltammetry也在0.5mol/LH2SO4答案调查。当退火了到锐钛矿时,Pt-TiO2/Ti催化剂的electrocatalytic活动在甲醇的电镀物品氧化期间展出改进效果。Pt-TiO2/Tielectrocatalyst上的甲醇氧化的连续周期的voltammograms看唯一的electrocatalytic特征是否与体积磅催化剂上的甲醇氧化相比。当一部electroactive电影的形成发生到工作催化剂表面上时,这因为由自我组织的TiO2nanotubes上的磅粒子的磅(111)方面的吸附的公司的进一步快的氧化。
简介:Byanoveltechnique-cathodicmicro-arcelectro-deposition(CMED),ZrO2coatingsweredepositedonanFeCrAlalloy.ExperimentalresultsshowthatthenecessaryconditionsforobtainingZrO2coatingsaretoapplyapulsepeakvoltageoveracriticalvalueandaddmoderateamountsofZrO2colloidalparticlesandZr(NO3)4intheequeoussolution.Theas-depositedcoatingsareporousbecausehydrogen,water,andothervaporsaregeneratedandreleasedfromthecoatingstothesolutionduringthesparkreaction.ThecoatingscontainmonoclinicandtetragonalcrystallineZrOwithcertaindegreeofamorphousstructure.TheprocessingparametersandmechanismofCMEDwerediscussed.