简介:本文采用高温团相反应合成TCaTiO3∶Pr3+红色发光材料、报道了Pr3+激活的CaTiO3的光谱特征及长余辉特性,并与CaS∶Eu的光谱特性及长余辉进行了比较。CaTiO3∶Pr3+将是一种具有广泛用途的新材料
简介:Calciumtitanatedopedwithpraseodymiumwaspreparedthroughsolidstatereactionanditexhibitedintenseredemissionat612nm.Phosphorswerecharacterizedforphotoluminescence,thermo-luminescenceandafterglowemissions.Studyofeffectsofrareearthsonphotoluminescenceaswellasafterglowintensitywasreported.Presenceofgadoliniumenhancedluminescence.Presenceofsomemonovalentionsenhancedbothafterglowandphotoluminescenceemission.Thermo-luminescenceglowcurveswereanalyzedand...
简介:CaTiO3的形成行为在钛铁矿的electro-deoxidization期间专注准备FeTi合金被实验和模拟调查。结果显示中间的产品的形成和分解,CaTiO3,在钛铁矿的electro-deoxidization期间是不可避免的步专注。CaTiO3能在电气化学的过程期间通过熔融的盐和电气化学反应的hydrolyzation被产生。为CaTiO3的产生的主要原因在阴极是在从熔融的盐和TiO2的Ca2+之间的电气化学反应。与electro-deoxidization继续,CaTiO3是进一步的electrolyzed形成钛低值氧化物。当在由在sintering期间增加CaCO3的阴极的CaTiO3形式处理时,当前的效率能被改进。
简介:MonophasicCe~(3+)andPr~(3+)co-dopedyttriumaluminumgarnet(YAG:Ce~(3+),Pr~(3+))nanoparticleswithgooddispersityanduniformgrainsizesintherangeof50–80nmwerepreparedbyatwo-steproute,whichconsistedofamodifiedco-precipitationpreparationofmixedmetalhydroxidehydrateintermediatesatlowtemperatureofabout40oCandasubsequentcalcinationconversionofthesynthesizedintermediatestocrystallinenanoparticleproductsatabout1000oC.Theinfluencesofboththelanthanideion(Ce~(3+)andPr~(3+))dopingconcentrationanddifferentdoping(Ce~(3+)/Pr~(3+))ratioonthephotoluminescenceintensityweresystematicallyinvestigated.Thesynthesized(Ce_(0.6)Pr_(0.4))_(0.04)Y_(2.96)Al_5O_(12)nanoparticleswerenearsphericalnanoclusterswithgooddispersityanduniformsizesintherangeof50–80nmforabout85%oftheparticles.Thestrongestphotoluminescenceintensitywasobservedforthe(Ce_(0.6)Pr_(0.4))_(0.04)Y_(2.96)Al_5O_(12)nanoparticleproducts.
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简介:背景:研究发现miR-142-3p低表达于多种肿瘤组织和细胞系中,并且有研究发现TUG1/miR-142/ZEB2轴可抑制膀胱癌增殖并诱导其凋亡。目的:观察miR-142-3p在膀胱癌干细胞中的表达水平,探讨其对S1PR3的靶向调控作用及对膀胱癌干细胞干性的影响。方法:从新鲜人膀胱癌组织中分离培养原代膀胱癌细胞,采用流式细胞仪筛选出CD44^+细胞与CD44~-细胞,Western-blot检测2种细胞中Nanog、Oct4蛋白的表达,qRT-PCR检测2种细胞中miR-142-3p基因的表达。将miR-142-3pmimic(实验组)、miR对照质粒(对照组)分别转染至CD44^+细胞,48h后,采用MTS实验检测细胞增殖能力,软琼脂克隆实验检测细胞克隆形成能力,Transwell小室实验检测各组细胞转移能力,Western-blot检测细胞中pPi3k和pAkt蛋白表达,qRT-PCR检测细胞中S1PR3基因表达。将稳定转染的2种细胞分别注射至裸鼠(购自北京维通利华实验动物技术有限公司)右侧腋下,4周后检测肿瘤体积。将S1PR3-突变型+miR-142-3pmimic、S1PR3-突变型+miR对照质粒、S1PR3-野生型+miR-142-3pmimic、S1PR3-野生型+miR对照质粒分别转染至CD44^+细胞,48h后检测各组荧光素酶活性。结果与结论:①CD44v+细胞中miR-142-3p基因表达显著低于CD44-细胞(P<0.05);CD44^+细胞中Nanog、Oct4蛋白表达显著高于CD44^-细胞,证实CD44^+细胞为膀胱癌干细胞;②实验组膀胱癌干细胞的增殖能力、克隆形成能力及转移能力明显低于对照组(P<0.05);③实验组膀胱癌干细胞中pPi3k和pAkt蛋白表达弱于对照组,S1PR3基因表达低于对照组(P<0.05);④实验组裸鼠体内肿瘤体积小于对照组(P<0.05);⑤与相比,S1PR3-突变型+miR-142-3pmimic组荧光素酶活性显著低于S1PR3-突变型+miR对照质粒组(P<0.05),S1PR3-野生型+miR对照质粒组和S1PR3-野生型+miR-142-3pmimic组荧光素酶活性无差异(P>0.05);⑥结果表明,miR-142-3p在膀胱癌干细胞中低表达,其可能通过负调控S1PR3下调PI3K/AKT�
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简介:NominalcompositionofCa1-xZnxTiO3:0.002Pr3+(x=0.000~0.200)phosphorswerepreparedbyconventionalsolidreactionroute.XRDandPLmeasurementswereusedtoinvestigatethesolid-solutionstructureandluminescencepropertiesofZn-dopedCa1-xZnxTiO3:0.002Pr3+phosphors.Theeffectofsolid-solutionstructureformedbysubstitutionbetweenCa2+andZn2+ionsontheluminescentpropertieswasanalyzed.Theresultsrevealthat,withtheincreaseofZnsubstitutioncontentbelow0.010,latticeparametersandtheintensityofexcitationpeakatboth260and330nmaswellasthecorresponding610nmemissionintensityaremonotonouslydecreasedquicklyinasimilartendency.Also,theevolutionofluminescenceintensityandcrystalcellparametersagainstZndopingconcentrationareingoodagreement.AboveresultsarecloselyrelatedwiththestructurechangewithinCa1-xZnxTiO3:0.002Pr3+solid-solutionphaseformedbytheZnionssubstitutionfortheCasites.Presentstudyrevealsthatthesolid-solutionstructureformedbysubstitutionbetweenCa2+andZn2+ionshassignificanteffectontheluminescencepropertiesofsinglephaseCa1-xZnxTiO3:0.002Pr3+phosphors.
简介:儿童心理学的研究如何更加有效地直接为提高我国人才素质服务?如何以心理科学为基础,立足于我国的教育实际,逐步建立我们自己的教育科学实验研究体系?为此目的,我们以“儿童推理过程的发展与教育”的实验研究为基础,经过多年的理论及上万人次的实验和各种形式的社会探测,逐步确定了《学习与全面发展》这个总课题,并把总课题的理论“物化”成一套工具——《3·3.3…系列智能学具》。我们这项研究的一个特点就是把科研成果的普及推广作为整个科研工作的有机组成部分。这套学具的应用过程就是我们同广大教师,家长和学生结合在一起深入进行科学实验的过程;同时它也是为教育实践服务取得社会效益的过程。目前,学具的一种型号已经在国内十多个省市的幼儿园、小学、中学、师范院校以及科研单位试用。为有组织、有计划地在国内逐步推广这项科研成果,我们已经同北京、天津、沈阳、徐州、蚌埠、杭州和遵义等地的有关单位签订了合作研究的协议书,还有几个地区的单位,即将同我们签订协议。为使各协作点的普及推广工作深入持久地向前推进,使这项科研成果更有效地为提高我国人才的素质和当前的教育改革服务,我们通过这个专栏:1.向老师、家长和学生提供有关学具的理论和方法方面的具体指导;2.介绍教师、家长和学生运用学具的收获体会、教案和个案等;3.交流各地协作研究工作的动态、信息。本栏的编者是中央教育科学研究所教育心理研究室的学习与发展组。愿这个专栏成为一座架在科研工作者与教育实际工作者之间的“立交桥”。欢迎各协作点的同志踊跃来稿。来稿可直接寄:北京北环西路10号中央教科所《3·3·3》编辑组。
简介:ThephotoluminescencepropertiesofBiTaO4∶Pr3+andBiTaO4atroomtemperaturewerestudied,andtheinfraredtransmissionanddiffusionreflectionspectraofBiTaO4weremeasured.ThephotoluminescencespectrumofBiTaO4peaksatabout420,440and465nm.Therehasanobviousexcitationbandfrom330to370nm.ThephotoluminescencespectrumofBiTaO4∶Pr3+consistsofthecharacteristicemissionofPr3+,anditsmainpeakisat606nmfrom3P0→3H6transitionofPr3+.Itsexcitationspectrumconsistsofthewidebandwithmaximumat325nm,thewidebandintherangeof375~430nm,andthecharacteristicexcitationofPr3+.Thebandsat325nmand375~430nmmaybefromtheabsorptionofthechargetransfertransitionofthetantalategroupanddefectenergylevelsinitsforbiddenband,respectively.ThereisenergytransferfromhosttoPr3+.BecauseboththehostdensityandphotoluminescencepeakintensityofBiTaO4∶Pr3+aresuperiortoPbWO4,BiTaO4∶Pr3+maybeapotentialheavyscintillator.
简介:ThephaseandmorphologytransformationduringthehydrothermaltreatingprocessofY2O3wasevaluatedwithX-raydiffcrcnce(XRD),scanningelectronmicroscopy(SEM),transmissionelectronmicroscopy(TEM),particlesizeandspecificsurfaceareadetermination.TheresultsshowedthatthecubicY2O3didnottransferintohexagonalY(OH)3inpurewater.Therefore,purehexagonalY(OH)3withnanotubeandmicrorodmorphologieswereobtainedbyhydrothermaltreatingY2O3at150℃for12hin15mlof2mol/LNaOHsolutionwithandwith-outPVAorPEGItwassuggestedthatthecharacteristicpreferentialgrowthofY(OH)3wasattributedtothestructureanisotropyofhexahedronY(OH)3.TheadditionofPVAorPEGcouldpromotetheformingprocessofnanotubesbyselectiveadsorptionondifferentcrystalplanes,whichalteredthegrowthratealongdifferentdirectionsandresultedinthediffusionlimitofconstructingionsinthecentertopofrods.Finally,Y(OH)3:EuandY2O3:Eunanotubeswerealsosynthesizedbyusingthismethod,andtheirphotoluminescencepropertieswereevaluated.