简介：《气体物理》由中国航天科技集团公司主管、中国航天空气动力技术研究院（主要主办单位）、中国宇航出版有限责任公司共同主办。国内统一连续出版物号为CN10-1384/03,中文,双月刊,大16开。逢单月（一月、三月、五月、七月、九月、十一月）出版,每年6期,每期64页。《气体物理》主编是中国航天空气动力技术研究院院长李锋。第三届编辑委员会由12名高级顾问、9名副主编、57名编委组成,其中中国科学院院士11名。

简介：《气体物理》由中国航天科技集团公司主管、中国航天空气动力技术研究院（主要主办单位）、中国宇航出版有限责任公司共同主办。国内统一连续出版物号为CN10-1384／03，中文，双月刊，大16开。逢单月（一月、三月、五月、七月、九月、十一月）出版，每年6期，每期64页。

简介：《气体物理》由中国航天科技集团公司主管、中国航天空气动力技术研究院（主要主办单位）、中国宇航出版有限责任公司共同主办。国内统一连续出版物号为CN10-1384/O3,中文,双月刊,大16开。逢单月（一月、三月、五月、七月、九月、十一月）出版,每年6期,每期64页。

简介：《气体物理》由中国航天科技集团公司主管、中国航天空气动力技术研究院（主要主办单位）、中国宇航出版有限责任公司共同主办。国内统一连续出版物号为CN10-1384/03,中文,双月刊,大16开。逢单月（一月、三月、五月、七月、九月、十一月）出版,每年6期,每期64页。《气体物理》主编是中国航天空气动力技术研究院院长李锋。第三届编辑委员会由11名高级顾问、9名副主编、58名编委组成,其中中国科学院院士10名。《气体物理》的办刊宗旨：立足航天,面向全国,全面展示和介绍气体物理理论与应用领域最新研究成果和行业动态,为科技工作者提供理论研究与工程应用交流平台。

简介：《气体物理》由中国航天科技集团公司主管、中国航天空气动力技术研究院（主要主办单位）、中国宇航出版有限责任公司共同主办。国内统一连续出版物号为CN10—1384／03，中文，双月刊，大16开。逢单月（一月、三月、五月、七月、九月、十一月）出版，每年6期，每期64页。

简介：《气体物理》由中国航天科技集团公司主管、中国航天空气动力技术研究院（主要主办单位）、中国宇航出版有限责任公司共同主办。国内统一连续出版物号为CN10—1384／O3，中文，双月刊，大16开。逢单月（一月、三月、五月、七月、九月、十一月）出版，每年6期，每期64页。

简介：Halfsandwichirondicarbonylcomplex[η5-C5H3(t-Bu)2]Fe(CO)2Cl(1)reactswith1,2-dilithiumdiselenocarboraneLi2Se2C2B10H10(2)togiveabinuclearironcarboranecomplex[η5-C5H3(t-Bu)2]2Fe2(CO)3*Se2C2B10H10(3).TheX-raydiffractionanalysisofcomplex3revealsthatoneoftheironatomsischiral.

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简介：Thenonlinearbehaviorofacantileveredfluidconveyingpipesubjectedtoprincipalparametricandinternalresonancesisinvestigatedinthispaper.Theflowvelocityisdividedintoconstantandsinusoidaiparts.Thevelocityvalueoftheconstantpartissoadjustedsuchthatthesystemexhibits3:1internalresonancesforthefirsttwomodes.Themethodofmultiplescalesisemployedtoobtaintheresponseofthesystemandasetoffourfirst-ordernonlinearordinary-differentialequationsforgoverningtheamplitudeoftheresponse.TheeigenvaluesoftheJacobianmatrixareusedtoassessthestabilityoftheequilibriumsolutionswithvaryingparameters.Thecodimension2derivedfromthedouble-zeroeigenvaiuesisanalyzedindetail.Theresultsshowthattheresponseamplitudemayundergosaddle-node,pitchfork,Hopf,homoclinicloopandperiod-doublingbifurcationsdependingonthefrequencyandamplitudeofthesinusoidalflow.Whenthefrequencyofthesinusoidalflowequalsexactlyhalfofthefirst-modefrequency,thesystemhasaroutetochaosbyperiod-doublingbifurcationandthenreturnstoaperiodicmotionastheamplitudeofthesinusoidalflowincreases.

简介：采用水热方法并以邻菲啉为模板剂合成了一种过渡金属配合物连接的无机-有机层状结构的多金属钒酸盐Co（1,10-phen）（H2O）（VO3）2,该化合物经过X-射线单晶衍射、元素分析、红外光谱表征和热失重分析,并用循环伏安法研究了标题化合物的电化学性质.

简介：Twoseriesofmixedoxides,CoAlMandMgAlM(M=Cr,Mn,Fe,Co,Ni,Cu),werepreparedbycalciningtheircorrespondinghydrotalcite-likecompounds(HTLc).TheratioofMg:Al:M(orCo:Al:M)was3:1:1.ThecatalyticactivityofallsamplesforthereactionofNO+COwasinvestigated.TheresultsshowedthattheactivityofCoAlMwasmuchhigherthanthatofMgAlM.ThestructureandthepropertyofredoxwerecharacterizedbyXRDandH2-TPR.TheresultsindicatedthatonlyMgOphasewasobservedaftercalciningMgAlMhydrotalcites,andthetransitionmetalsbecamemorestable.Thespinel-likephaseappearedinallofCoAlMsamplesafterthecalcination,andthetransitionmetalswerechangedtobemoreactive,andeasilyreduced.TheactivitiesofthreeseriesofmixedoxidesCoAlCuobtainedfromdifferentpreparationmethods,differentratioofCo:Al:Cuandatdifferentcalcinationtemperatures,werestudiedindetailforproposingthemechanismofreaction.TheabilityofadsorptionofNOandCO

简介：poly包括的合成聚合物电解质(用户终端设备)(vinilydenefluoride-hexafluoro丙烯)，PVDF-co-HFP和锌triflate，Zn(CF3有改变ZrO2nanofillers的集中的3)2被与N扔技术的答案因此准备，N-dimethylformamide(DMF)作为普通溶剂。有特别作文的聚合物电解质标本75wt%PVDF-co-HFP：7wt%ZrO2显示出的25wt%ZnTf+4.6的最高的传导性??????????????€潰祬???????畃????猯灵？？

简介：Forsyngasproduction,thecombustionoffossilfuelsproduceslargeamountsofCO2asagreenhousegasannuallywhichintensifiesglobalwarming.Inthisstudy,chemicalloopingcombustion(CLC)hasbeenutilizedfortheeliminationofCO2emissiontoatmosphereduringsimultaneoussyngasproductionwithdifferentH2/COratioinsteamreformingofmethane(SR)anddryreformingofmethane(DR)inaCLC-SR-DRconfiguration.InCLC-SR-DRwith184reformertubes(similartoanindustrialscalesteamreformerinZagrosPetrochemicalCompany,Assaluyeh,Iran),DRreactionoccursoverRh-basedcatalystsin31tubes.Also,SRreactionishappenedoverNi-basedcatalystsin153tubes.CLCviaemploymentofMn-basedoxygencarrierssuppliesheatforDRandSRreactionsandproducesCO2andH2Oasrawmaterialssimultaneously.AsteadystateheterogeneouscatalyticreactionmodelisappliedtoanalyzetheperformanceandapplicabilityoftheproposedCLC-SR-DRconfiguration.Simulationresultsshowthatcombustionefficiencyreached1attheoutletoffuelreactor(FR).Therefore,pureCO2andH2OcanberecycledtoDRandSRsides,respectively.Also,CH4conversionreached0.2803and0.7275attheoutletofSRandDRsides,respectively.Simulationresultsindicatethat,3223kmolh-1syngaswithaH2/COratioequalto9.826wasproducedinSRsideofCLC-SR-DR.Afterthat,1844kmolh-1syngaswithaH2/COratioequalto0.986wasachievedinDRsideofCLC-SR-DR.ResultsillustratethatbyincreasingthenumberofDRtubesto50tubesandconsidering184fixedtotaltubesinCLC-SR-DR,CH4conversionsinSRandDRsidesdecreased2.69%and3.31%,respectively.However,thissubjectcausedtotalsyngasproductioninSRandDRsides(inallof184tubes)enhanceto5427kmolh-1.Finally,thermalandmolarbehaviorsoftheproposedconfigurationdemonstratethatCLC-SR-DRisapplicableforsimultaneoussyngasproductionwithhighandlowH2/COratiosinanenvironmentalfriendlyprocess.

简介：CaF2:Ho3+/Yb3+nano-particleswithintensegreenup-conversion(UC)luminescencearesuccessfullysynthesizedviaafacilehydrothermalapproachbyusingNH4FasthefluoridesourceandNa2EDTAasachelatingreagent.PowderXraydiffraction(XRD),transmissionelectronmicroscopy(TEM),fieldemissionscanningelectronmicroscopy(FE-SEM),andUCemissionspectraareusedtocharacterizethestructures,shapes,andluminescentpropertiesofthesamples.TheeffectsfromfluoridesourcesandchelatingreagentsontheformationsofCaF2nano-particlesareinvestigated,andtheformationprocessisalsodeduced.Undertheexcitationofa980-nmlaserdiode,thesampleseachshowagreenup-conversionemissioncenteredat540nmcorrespondingtothe5S2/5F4→5I8transitionsofHo3+.Moreover,theUCmechanismsofHo3+/Yb3+co-dopedCaF2nano-particlesarealsodiscussed.

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简介：Anovelgel-likeprocesshasbeendevelopedforsynthesizingLiaNi0.8Co0.2O2powders,usingcitricacidasachelatingagent.Thisprocessimprovesthehomogeneityofconstituentcationandenhancestheirreactivityintheobtainedprecursor.Theresultsofelectrochemicaltestdemonstratedthatthesematerialsexhibitedexcellentelectrochemicalproperties.Itsinitialcapacityreached181.6mAh/gandreversibleefficiencyatthefirstcycleisabout88.6%.

简介：COandformaldehyde(HCHO)oxidationreactionswereinvestigatedovermesoporousAg/Co3O4catalystspreparedbyone-pot(OP)andimpregnation(IM)methods.Itwasfoundthattheone-potmethodwassuperiortotheimpregnationmethodforsynthesizingAg/Co3O4catalystswithhighactivityforbothreactions.ItwasalsofoundthatthecatalyticbehaviorofmesoporousCo3O4andAg/Co3O4catalystsforthebothreactionswasdifferent.AndtheadditionofsilveronmesoporousCo3O4didnotalwaysenhancethecatalyticactivityoffinalcatalystforCOoxidationatroomtemperature(20C),butcouldsignificantlyimprovethecatalyticactivityoffinalcatalystforHCHOoxidationatlowtemperature(90C).Thehighsurfacearea,uniformporestructureandtheprettygooddispersiondegreeofthesilverparticleshouldberesponsiblefortheexcellentlow-temperatureCOoxidationactivity.However,forHCHOoxidation,theadditionofsilverplayedanimportantroleintheactivityenhancement.AndthesilverparticlesizeandthereducibilityofCo3O4shouldbeindispensableforthehighactivityofHCHOoxidationatlowtemperature.

简介：Anovelflower-likehydratedmagnesiumcarbonatehydroxide,Mg_5(CO_3)_4(OH)_2·4H_2O,withmicro-structurecomposedofindividualthinnano-sheetswassynthesizedusingafacilesolutionroutewithouttheuseoftemplateororganicsurfactant.Reactiontimehasanimportanteffectonthefinalmorphologyoftheproduct.Themicro-structureandmorphologyofMg_5(CO_3)_4(OH)_2·4H_2OwerecharacterizedbymeansofX-raydiffractometry(XRD),field-emissionscanningelectronmicroscopy(FE-SEM).Brunauer-Emmett-Teller(BET)surfaceareasofthesampleswerealsomeasured.Theprobableformationmechanismofflower-likemicro-structurewasdiscussed.ItwasfoundthatMg_5(CO_3)_4(OH)_2·4H_2Owithflower-likemicro-structurewasanovelandefficientcatalystforthesynthesisofdiphenylcarbonate(DPC)bytransesterificationofdimethylcarbonate(DMC)withphenol.

简介：Dopantsanddefectsareimportantinsemiconductorandmagneticdevices.Strategiesforcontrollingdopinganddefectshavebeenthefocusofsemiconductorphysicsresearchduringthepastdecadesandremaincriticaleventoday.Co-dopingisapromisingstrategythatcanbeusedforeffectivelytuningthedopantpopulations,electronicproperties,andmagneticproperties.Itcanenhancethesolubilityofdopantsandimprovethestabilityofdesireddefects.Duringthepast20years,significantexperimentalandtheoreticaleffortshavebeendevotedtostudyingthecharacteristicsofco-doping.Inthisarticle,wefirstreviewthehistoricaldevelopmentofco-doping.Then,wereviewavarietyofresearchperformedonco-doping,basedonthecompensatingnatureofco-dopants.Finally,wereviewtheeffectsofcontaminationandsurfactantsthatcanexplainthegeneralmechanismsofco-doping.

简介：AseriesofmesoporousCu-Mn-Al2O3(CMA)materialswassynthesizedatmoderatetemperatureandtheirstructureswerecharacterizedbyXRD,N2physicaladsorptionandTPRtechniques.Itwasfoundthatusingmetalcomplexion[Cu(NH3)42+-Mn(NH3)62+]asrawmaterialsiseasiertoformgood-structuremesoporousCu-Mn-Al2O3materialsthanusingitsnitratesalt[Cu(NO3)2-Mn(NO3)2].TheTPRtestsresultsindicatethatCuOandMnOxwerehomogeneouslydispersedinthemesoporousmaterials.TheircatalyticapplicationtopreferentialcatalyticoxidationofCOinahydrogen-richstreamwasstudied.TheactivityvariesintheorderofCMA(1:1,molarratio)>CMA(1:2)>CMA(2:1)>CMA(CP)>CMA(1:0)≈CMA(0:1).TheCMA(1:0)andCMA(0:1)haveloweractivitycomparedtoothersamples,implyingthatthereexistedcoordinationeffectbetweenCu-Mninthesamples.TheselectivityvariedintheorderofCMA(0:1)≥CMA(1:2)>CMA(1:1)>CMA(2:1)>CMA(1:0)athighertemperature(≥120°C),indicatingthatincreasingtheCucontentenhancedtheconversionofH2.ThesampleCMA(CP)madebycoprecipitationmethodhasalowerCOoxidationactivityandselectivitythanitscounter-partsofmesoporousCu-Mn-Al2O3materials[CMA(1:2)],thisattributedtothelowersurfaceareaoftheformerandpoorinteractionofCuOwithMnOx.