简介：Inpursuingexcellentsupercapacitorelectrodes,wedesignedaseriesofM0S2/C0S2compositesconsistingofflower-likedMoS2andoctahedron-shapedCoS2throughafacileone-stephydrothermalmethodandinvestigatedtheelectrochemicalperformanceofthesampleswithvarioushydrothermaltime.Duetothecouplingoftwometalspeciesandabigamountofwell-developedCoS2andMoS2,theresultsindicatedthattheMoS2/CoS2compositeselectrodesexhibitedthebestelectrochemicalperfor-mancewithalargespecificcapacitanceof490F/gat2mV/sor400F/gat10A/gamongallsamplesasthehydrothermaltimereached48h(MCS48).Furthermore,theretentionofMCS48is93.1%after10000cyclesat10A/g,whichmanifeststheexcellentcyclingstability.TheoutstandingelectrochemicalperformanceofMCS48indicatesthatitcouldbeaverypromisingandnovelenergystoragematerialforsupercapacitorsinthefuture.

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简介：TheantibacterialeffectofcarryingsilverB2O3-SiO2-Na2Oglassmaterialwasstudiedbymeansofantibacterialring,nephelometery,MICvalue,thinfilmattachmentandmicrocalorimetry,respectively.TheexperimentalresultsoffivekindsofantibacterialtestmethodsarealmostidenticalandcanverifythatcarryingsilverB2O3-SiO2-Na2Oglassmaterialexertsanexcellentantibacterialperformance.Antibacterialringandnephelometeryaresimple,quick,buttheprecisionisrestrictive.MICvalue,thinfilmattachmentmethodandmicrocalorimetrycanquantitativelycomparetheantibacterialeffectsoftheantibacterialglassmaterial.Comparedwiththetraditionalmicrobetestmethods,themicrocalorimetrycananalyzetheinhibitingeffectofthecell'sgrowthandmetabolismontheantibacterialglassmaterialbymonitoringthethermaleffectcontinuouslyandautomatically.

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简介：石墨和ZrB2–SiC的氧化行为修改了石墨合成在1×105Pa空气和0.2×105PaO2。氧化测试在一个感应的加热炉子被进行。这二材料的氧化跟随了线性率法律。在2100°C的石墨和C–ZrB2–SiC的坚定的半径损失率在1×105−2和1.05×10−2%/s>Pa空气，和3.23×10−2和2.21×10在0.2×105−2%/s>PaO2,分别地。ZrB2并且原文如此的加入显著地减少了石墨的氧化率因为在氧化期间在样品表面上形成的氧化物规模在减少暴露的表面区域帮助在下面底层。在有一样的氧的二不同气氛部分压力，石墨和C–ZrB2–SiC在0.2×105PaO2比在1×105Pa空气。氧化为石墨和C–ZrB2–SiC的控制率的步被建议分别地是通过边界层并且通过在氧化物规模的毛孔的氧的里面的散开。一个模型基于散开理论被建立在他们的氧化行为上讨论全部的煤气的压力的效果。

简介：Throughmeasuringthecoefficientoflinearexpansion,thestructureandpropertiesoftheLi2O-Al2O3-SiO2lowexpansionglassceramicscontainingB2O3arestudiedbyJRandXRD.ItisshoutnthattheIRmethodisefficientinthestudyoftheglass-ceramicsstructure.Thereisa"Boronabnormality"inthesystemwhichhasanimportantinfluenceonthepropertiesoftheglass-ceramics.

简介：与更大的秒顺序非线性发现材料，有GeS_2的各种各样的比率的Ge-P-Schalcogenide眼镜:P_2S_5被melt-准备--熄灭方法。这些眼镜的微观结构和光学性质被XRD描绘，拉曼，Vis-NIR光谱学并且。制造者穗技术。第二泛音代(SHG)在被归功于到热应力坡度，and/或微各向异性的缺点的同样准备的锕系元素硫族元素化合物眼镜里被观察(例如孤独对轨道或原子价选择对)比较喜欢--同样准备的眼镜的取向。

简介：SiO2-B2O3-Al2O3-CaO在低sintering温度使契约成玻璃，高力量被讨论。FTIR和XRD分析被用来与铝的不同内容描绘基本使成玻璃的契约的结构。弯曲力量和热扩大系数也被测试。同时，在660光线衍射(XRD)的sintering温度的合成标本的微观结构，扫描电子显微镜(SEM)分析和其它工具。结果证明分别地，钾和磷的溶解率在95.64wt%lessthan的一种谷物尺寸的条件下面是70wt%和93.7wt%0.074公里，9.78gg-1硫磺的酸，0.5gg-1铵氟化物，160桴???瑳畲瑣牵獥椠?慭湩慴湩摥映吗？？

简介：TiB2ceramicspowderwassynthesizedfromB2O3-TiO2-Mgsystem.TheeffectsofTiB2additionasdiluentonthecombustionsynthesisprocesswereinvestigated.TheresultsofthermodynamiccalculationandexperimentsshowthattheincreaseofTiB2contentrangingfrom0to20wt%canreducetheadiabatictemperatureTadfrom3100Kto2896KandcombustiontemperatureTcfrom2139Kto1621Krespectively.TheparticlesizeandhalfwidthoftheparticledistributionarealsoincreasedwiththeadditionofTiB2increasingfrom0to20wt%.ThecombustionproductisamixtureofTiB2,MgO,andotherintermediatephases.TheleachedproductcontainsmainlyTiB2,TiO2andTiN,anditsoxygencontentis7.77wt%.

简介：用organo听Sn(OC4H9)4作为先锋，钠dodecylsulfonate(SDS)和SDS明胶(SDS-G)象模板复杂，二听二氧化物胶体的粒子被准备由一自己组装方法。两个SnO2产品分别地与SDS-G与SDS和SnO2-C粒子被标记SnO2-B粒子，它在制作相应于SnO2-B和SnO2-C传感器的SnO2煤气的传感器被使用。X光检查衍射(XRD)，扫描电子显微镜学(SEM)，传播电子显微镜学(TEM)和thermogravimetry和不同热分析(TG/DTA)被用于描述。试验性的结果证明SnO2-B胶体的粒子由mesoporous组成像片的粒子，当SnO2-C粒子主要由球形的粒子组成时。煤气的察觉到大小证明那个SnO2-B传感器执行察觉到反应到所有目标气体的最好，包括H2，C2H5OH和液体石油气体(LPG)。特别地，SnO2-B传感器的察觉到的反应在1000潩獮的集中在H2空气在32点被完成

简介：Thevolatilizationkineticsofantimonytrisulfideinsteamatmospherewasstudiedwiththermogravimetryattemperaturesfrom923to1123K.Atheoreticalmodelwasdevelopedtocalculatetheoverallrateconstantandthemasstransfercoefficientingasphases.Theexperimentalresultsshowthatthevolatilizationrateisenhancedwithincreasingtemperatureandsteamflowrate.Thevolatilizationrateismainlycontrolledbythemasstransportingasphases.Theapparentactivationenergyfortheprocessisfoundtobe59.93kJ/mol.ItisdemonstratedthatSb2S3isdominantlyoxidizedintoSb2O3andH2Sbywatervaporinthevolatilizationprocess.Someantimonymetalisformed.Thereactionmechanismisdiscussedinaccordancewithexperimentaldata.

简介：PositronannihilationbehaviorshavebeenstudiedinthesinglephaseNd2Fe14BmagnetandthenanocompositeNd2Fe14B/α-Femagnet,preparedbymeltspinning.Theresultsshowedthatthenumberofvacancy-clusteratgrainboundariesincreaseswithincreasingannealingtemperatureforthebothtypesofmagnets.Theincreaseofthiskindofdefectcanimprovethecoercivityof

简介：Sodiumparanitrophenolatedihydrate(NPNa·2H2O)isanexcellentsemiorganicnonlinearoptical(NLO)material,crystallizesbothinwaterandmethanolwithhighdegreeoftransparency.Goodopticalqualitysinglecrystalsofdimensionupto18mmx6mmx3mmareobtainedbyisothermalsolventevaporationtechnique.Thesolubilityofthecrystalindifferentsolventswasmeasuredgravimetrically.ThesinglecrystalsofNPNa·2H2Oshowvariationinphysicalpropertiesandgrowthrateindifferentsolvents.Methanolorethanolsolutionyieldscrystalsofbipyramidalshapewithclearmorphology.However,methanolgrowncrystalisexhibitingimprovedhardnessparametersandpossessesexcellentthermalstabilityascomparedtowatergrowncrystals.TheeffectsofsolventonhardnessparameteralongwiththermalandopticalpropertiesofNPNa·2H2Owasrevealedinthispaper.

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简介：Asanodematerialsforlithium-ionbatteries,SiO_2isofgreatinterestbecauseofitshighcapacity,lowcostandenvironmentalaffinity.AfacileapproachhasbeendevelopedtofabricateSiO_2@Chollowspheresbyhydrolysisoftetraethylorthosilicate(TEOS)toformSiO_2shellsonorganicspheretemplatesfollowedbycalcinationsinairtoremovethetemplates,andthentheSiO_2shellsarecoveredbycarbonlayers.ElectronmicroscopyinvestigationsconfirmhollowstructureoftheSiO_2@C.TheSiO_2@ChollowsphereswithdifferentSiO_2contentsdisplaygradualincreaseinspecificcapacitywithdischarge/chargecycling,amongwhichtheSiO_2@CwithSiO_2contentof67wt%exhibitsdischarge/chargecapacitiesof653.4/649.6mAhg~(-1)over160cyclesatcurrentdensityof0.11mAcm~(-2).TheimpedancefittingoftheelectrochemicalimpedancespectroscopyshowsthattheSiO_2@CwithSiO_2contentof67wt%hasthelowestchargetransferresistance,whichindicatesthattheSiO_2@Chollowspheresispromisinganodecandidateforlithium-ionbatteries.

简介：MoleculardynamicssimulationusingauniversalforcefieldhasbeenemployedtodeterminethediffusioncoefficientsofO2andNa2SO4vaporintoB2O3andSiCfrom700Kto1273K,respectively.Einsteindiffusionwasobservedina250～300pssimulation.ThediffusioncoefficientfortheO2rangefromabout9.279×10-9cm2/sforB2O3to2.275×10-10cm2/sforSiCataloadingof32moleculespersimulationbox,thatfortheNa2SO4vaporrangefromabout9.888×10-7cm2/sforB2O3to1.837×10-10cm2/sforSiCataloadingof8moleculespersimulationbox.EnvironmentpropertiesofC/SiCcompositewillbeincreasedviatheB2O3preventingthediffusionofO2andNa2SO4vaporintothepyrolyticinterphaseandcarbonfibers.

简介：采用热注入法成功制备出三元AgInS2和四元Ag—Zn—In—S量子点，物性测试得到AgInS2量子点的发射峰为701nm，Ag—Zn—In—S量子点的发射峰593nm，即Ag-Zn-In—S量子点的发射峰相对于AgInS2量子点发生了蓝移，AgInS2和Ag—Zn—In—S量子点都表现出了较长的荧光寿命，分别为169ns和162ns，结合生物组织光学窗口范围限制，相对Ag—Z—In—S，AgInS2量子点更适用于生物标记。

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简介：弧与cored电线喷洒被使用在低碳钢底层上扔FeMnCr/Cr3C2涂层，也就是FM1，FM2和FM3。涂层的热吃惊电阻被调查在热吃惊抵抗上估计Cr3C2内容的影响。在热骑车测试下面的涂层的特征被光显微镜学，地排放扫描电子显微镜(FE-SEM)和精力分散光谱(版本)学习，X光检查衍射(XRD)。试验性的结果证明涂层的坚硬增加，结合力量随涂层的Cr3C2内容的增加稍微减少。作为结果，FM2涂层拥有最好的热吃惊抵抗，归因于它比那些的更好热的扩大火柴和FM3涂层的wettability，更少的氧化物率比FM1涂层在涂层从裂缝形成和繁殖制止的。

简介：TheelectronicstructuresofCuS2,CuSe2andCuTe2withpyritestructures,withintheframeworkthedensity-functionaltheoryhavebeeninvestigated.ThecalculatedresultsexplainedtherecentexperimentalresultswhichshowthatthereisnoclearindicationofstrongelectroncorrelationsintheelectronicpropertiesofCupyrites,duetothedominantchalcogenpcharacterratherthandcharacteristicofCuattheFermilevel.