611 resultados para EU3
Resumo:
srB4O7BO4MBPO5MCaSrBaPO404BaSO4SO4Eu3+Eu2+ Sr4Al14O25AIO4BaMgsiO4SiO4Eu3+Eu2+Eu3+Eu2+BaMgSiO4Eu2+Eu2+Ba3Eu2+398nmBa1Ba2Eu2+500nmBaMgSiO4Eu2+Eu2+500nmBlasseSAll4025SrAl2O4Sr3A12O6Sr4Al4O25SrAl2O4Eu3+Eu2+Sr3A12O6Eu3Eu2Sr4Al14O25BaMgSiO4Sr3Al2O6SAll 4025BaMgsi04Sr3Al2O6Ce4Ce3+Sr4Al14O25Ce3Tb3+Eu2+Ce3Tb3+Eu2Sr4Al14O25BaMgSiO4Sr3Al2O6CaYBO4Tb35D35D4254nmCaYBO4Eu3+609nmBaMgsio4Ce3371nm
Resumo:
-Ca2RSSiO46O2RYGdYVO4LaPO41Eu3+Tb3+Dy3+Sm3+Er3+Pb2SEMAFMCa2R8SiO46O2RYGdEu3+Tb3+Ca2Y8SiO46O26hCs4fC35Do-7F25D4-7F5Eu3+Tb3+Y3+10mol6molCa2Y851O46O2:Eu3Ca2Y8SiO46O2:Tb3+800Pb2Ca2Gd8SiO4 6O2Gd3+Pb2Gd3Gd3nA3YVO4PechiniYvO4:AAEu3 Dy3Sm3Er3YVO4VO43-Dy3Sm3Er3Y3+2molLaPO4Etl3+591nm5Do-7FlTb3543nm5D4-7F5Ce35d-4fTb3Eu3+Tb3+Eu3+Tb3LaPO4:CeTbCe3+Tb3+95XRDx0x1 YVxP1-xO4:Eu3+YVxP1-xO4:Eu3+0x1xEu3+x0Eu3+1Eu3+5Do7F2Etlsx0Y0.98Eu0.l2PO4Eu3+D2d5D07FISD07F2xY0.98Eu0.02VxP1-xO40xl0x0.5Eu3+5 D0-7F2x0.6Eu3+5D0-7F2YVxP1-xO4:A30x1AErSmVO43-A3+VO43-VO43-n-A3+n1VO43-0.1x1xx1VO43-A3+xRVO4:A3+RYLaGdAEuSmErRA3+YVO4GdVO4D2dYVO4GdVO4A3+LaVO4A3+LaVO4C1C1D2dA3+Gd3+A3+GdVO4
Resumo:
MAIF5MCaSrBaLIMAIFaMCaSrCaAIFSrAIFBaAICaAIF6LrAISrAlF5LiSrAlF6llCoAIF6BaAlF5LiCaAlF6KMgF3:EuKMgFa:EU6P7/28S7/2420nml6P7/2-8S7/2Eu3+GdEuKMgFaBaLiF3BaY2F8Gd2+Eu2+Gd3+Eu2+Gd3+Eu2+Pr+ KMgF2LiYF4BaY2F8KMgFa:Pr3+352nmPr3+KMg1-xCaxF3Pr3+Ca2MgSi2O2EuEu3+Eu2+Ca2Eu8Si6O26X-ray
Resumo:
POMs14-PW6V6SPCV2.8nm02BrO3-2P2W17FeQPvP-OsCVEISUVvisH2O2BrO3-NO2-EISRcFeCN63/434-P2W15V3BrO3-NO2-P2W15V3QPVP-O5Os4Eu3+5D07Fjj=1234RcFeCN63/4514nm6.43nm
Resumo:
1Hbrid bilayerer membraneHBMFeCN63-HBMSTM2.RubPy32+sBLMDODABdimethyldioctadecylammonium0.1M0.1M0.1M1200M3FeCN63/4FeCN634-E12Eu3+Th3La34DDAB5M5250 mV1.8710-5cm2s0.5-10 mmolL147mV6E0pH 3.5-7.0pH-46.4 mV/pHH2O2H2O27DDABDET-169mVvs Ag/AgCl86.42nm8HBMHBMHBMATR-FTIRATR-FTIRS0.73HBMHBM
Resumo:
AAO5200nmAAOAAOAAOM2O3:RE3+MY,Gd; REEuTbAAOAAO15Onm35nm2OnmAAOAAO2XRD331AAOAAO-Al2O33AAO350600nm435nm4AAOYO.96RE0.05O3REEuTbSEMEDXTEMSAEDXRDPLx-XRDSAEDRE2O3REYGdEu3D07F2Tb35D47FJJ=65435M2O3:RE3MYGdREEuTbAAO6M2O3:RE3M=YGdREEuTbO7YGd2O3:Eu3+AAOAAO 8M2O3: RE3+MYGdREEuTb0AAO
Resumo:
Eu2+ab-Zn3(PO4)2:Mn2+-Zn3PO42:Mn2+Zn3B2O6:Mn2+Y2O3Eu3+Ca8MgSiO44Cl2:Eu2+Zn4B6O13:Mn2+-Zn3(PO4)2Mn2+Zn2SiO4:Mn2+Y2O2S:Eu3+caOEu3-Zn3(PO4)2:Mn2+Ga3+Zn2SiO4:Mn2+Al3+
Resumo:
MCM-48M41S20-30AMCM-41Eu3+-DBMdibenzoylmethaneMCM-48MCM-48MCM-48EuOBM3'2H2OXRDMCM-48MCM-48MCM-48MCM48OBMSnS1E4f-4OBMMCM-48Sn-S1S1MCM-486.9810-3 mol/l24MCM-48MCM-41SiO2MCM-480.7-1.2mMCM48QZ04SiO2MCM-41MCM-48MCM-48MCM-41MCM-48MCM-48[post-synthesis grajngPSG]VTESMTESNTSEDEuDBM3'2H2O2951MCM-48MSsNsDMCM-48MCM-48-RNTSEDVTESMTESMCM-48QZMCM-48-MTESMCM-48-VTESMCM-48-NTSEDMCM-48Dip-coating methodSiO2-CTAB-Tbacac3Mesostructed Iuminescence thin filmMLTFIn-situ50XROCTABTh3+bTbOH
Resumo:
DMFCDMMCOCOadRRXxPSX(XRD)SEMTGRPtC1DMMRRTiO2Pt-TiO2CDMMPt/CPt-TiO2CHo3+(Pt-TiO2-Ho3+/C)Eu3Pt-TiO2-Eu3/CDMMPt-TiO2CTiO2Eu3+Ho3+DMMDMMDMMDMMDMM2Eu3Ho3RCEu3H3+Eu3H3+COCOadPtCR-Eu3CR-H3CEu3Ho3+coodRCCoodXPsRCEu3HPtcPtcoadEu3H03PtCOadRREu3H"CoadREu3H3+PtCPt-TiO2CRCTiO2RCXPSTiO2PtTiO2TIOZEu3H3+R-TiO2CEu3H3+RCOodPtTIOZCOod3R-TiO2CRCTIOZPtTIOZCOadPtXPSTIOZRTiO2PtR-WO3CRCW03RR-WO3CCoadRCXPSWO3PtWO3RR4PtCPt-WO3CPtCPtw03CNafionPtCPt-WO3CCOadCOad
Resumo:
Eu3Dy3YB0303Ga203MCM4103Eu203H3Bo3pH14180270vateriteYBo3Eu3xRDFEsEM03E"50nmpHpHpHpHYB03E24OnmEu3ID7F2ISD7FI123724oC03Eu3pH8n200oC24xRDO0H903FEsEMPH8n35m200300pH85pHn10pHOOH903YI0303EGacl3HZONaOHpH68180Gao0H20030Onm17pH613pH8HZODEG1Ivol1151Zvol6Go0OHcpHGa0OHDEGpGaZO3254nmpGaZO3300nm600nln455nln64nspGaZO3Dy5102MCM41CMSEMSASPSG1000254nmMCM41ASPSGPLASPSGMCM41ASPSG5102MCM41MCM41PL365nmMCM41ASPSGPLCMSEMS300PLMCM41PL365nmPL5102Si0
Resumo:
1G03ExRDTEM823nmEu3EEu38EEu3501gel260Yvo4xRDTEM518nmVOE12E501gelYvo4Eu3Gdvo4E3GdPEpHEDTApHEDTAE8YPEu3xRD200Eu34G03E3XRDSEMED
Resumo:
Eu~3Sm~3Mn~2Fe~3Co~2Ni~2ZnOcccc10Onm15357-366nmEu3+Sm3Mn2+Fe3Co2Ni2Zn2+O2- Eu3+ZnO363nm368nmEg=3.423.40evEu3Zn1-xEux0.005x0.15Zn1-xTMxO356nm-369nm3.34-3.46eVCo2d-dZn1-xCoxO60Zn1-xEuxO90Zn1-xEuxO613nmEu37F5D378nmZnO394nmEu3+5D07FJJ1234zno378nmEu3+5D07F2znoE4-400KZn0.9Eu0.1OznogCooIO23oK200KM-HBr021emgHc327OeZn0.9Mn0.1OZn0.9Ni0.1OZn0.9Co0.1O80KZn0.9Eu0.1OZT110K14.53Zn1-xTMxOCoFeNiMnZn1-xTMxO80Co2DMSsol-gelZnoTMMCM-41AAOZnO:TMMCM-41MCM-41AAoloonmMCM-41Zn0.9Co0.1O80K-30OKMnFeNiZnoAAOZnO:TM(TM=MnFeCoNiSOK-30OKZnO:AABuSmcoZnlxCoxOPH5ZnORERE=EuSmZn0.98Co0.02O80KZnOREREEuSm80K
Resumo:
OLEDOLEDOLEDOLEDOLED--TFNBPFNPHFNHPFNDDPPZbiPyphenPLELPLELEuPLEu3ELEu31000cd/m24.14 cdA5.41cd/A2.283.11m/WELSmPLSmELPrPrNdErYbEuSm800-1700nmEuTbPL
Resumo:
The photoluminescence (PL) and photostimulated luminescence (PSL) of BaFBr: Eu phosphors are reported. In the photoluminescence of BaFBr:Eu, the emission of Eu2+, e-h recombination and Eu3+ have been observed, while in the photostimulated luminescence only the emission of Eu2+ was observed. This phenomenon may be explained well by the suggestion of a two-hand model for the host emission in which the host emission energy may transfer to Eu2+ difference of excitation in those two processes results in different transfer rates which makes the PL and PSL emission different.
Resumo:
The extraction of Am3+ and Eu3+ from picric acid aqueous solution by N,N-1,2-ethanediyl-bis[2-(N,N-diphenyl-carbamoyl-methoxy)-benzamide] was investigated by a radioactive tracer technique. The composition of the extracted species has been determined as ML(Pic)(3) (M = Eu, Am). The effect of various parameters such as pH, organic diluents, different extractants, picric acid concentration and extractants concentration on the extraction of Am3+ and Eu3+ has been studied. The extraction equilibrium mechanism has been also evaluated and discussed.
