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Fabrication of fluoride nanocrystals and their spectroscopic properties

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this work, the fabrication of glass-ceramic materials containing MF3:Eu3++ (M = La, Gd) nanocrystals dispersed in silica sol-gel hosts has been presented. The transformation from liquid sols towards bulk samples was also examined based on IR measurements. The crystallization temperatures and formation of MF3 phases were verified based on TG/DSC analysis and XRD measurements. The optical properties of prepared Eu3+5D05D07FJ (J = 1–4) emission bands, which were recorded within the reddish-orange spectral area under near-UV illumination (λexc = 393 nm). Recorded luminescence spectra and double-exponential character of decay curves for prepared glass-ceramic samples indicated the successful migration of Eu3+ dopant ions from amorphous silica framework to low-phonon energy MF3 nanocrystal phases.
Czasopismo
Rocznik
Strony
415--426
Opis fizyczny
Bibliogr. 29 poz., rys.
Twórcy
autor
  • University of Silesia, Institute of Chemistry, Szkolna 9 Street, 40-007 Katowice, Poland
  • University of Silesia, Institute of Chemistry, Szkolna 9 Street, 40-007 Katowice, Poland
autor
  • Univeristy of Silesia, Institute of Materials Science, 75 Pułku Piechoty 1A Street, 41-500 Chorzów, Poland
  • University of Silesia, Institute of Chemistry, Szkolna 9 Street, 40-007 Katowice, Poland
Bibliografia
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  • [4] CARUSO R., DE SANCTIS O., MARCÍAS-GARCÍA A., BENAVIDEZ E., MINTZER S.R., Influence of pH value and solvent utilized in the sol-gel synthesis on properties of derived ZrO2 powders, Journal of Materials Processing Technology 152(3), 2004, pp. 299–303, DOI: 10.1016/j.jmatprotec.2004.04.371.
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  • [6] LIU X., JIN Z., BU S., YIN T., Influences of solvent on properties of TiO2 porous films prepared by a sol-gel method from the system containing PEG, Journal of Sol-Gel Science and Technology 36(1), 2005, pp. 103–111, DOI: 10.1007/s10971-005-2746-6.
  • [7] GONZÁLEZ M.B., WU A., VILARINHO P.M., Influence of solvents on the microstructure and dielectric properties of Ba0.5Sr0.5TiO3 thin films prepared by a diol-based sol-gel process, Chemistry of Materials 18(7), 2006, pp. 1737–1744, DOI: 10.1021/cm048029f.
  • [8] DE OLIVEIRA NASSOR E.C., ÁVILA L.R., DOS SANTOS PEREIRA P.F., CIUFFI K.J., CALEFI P.S., NASSAR E.J., Influence of the hydrolysis and condensation time on the preparation of hybrid materials, Materials Research 14(1), 2011, pp. 1–6, DOI: 10.1590/S1516-14392011005000003.
  • [9] SASANI N., AYASK H.K., ZEBARJAD S.M., KHAKI J.V., Characterization of rod-like high-purity fluoroapatite nanopowders obtained by sol-gel method, Journal of Ultrafine Grained and Nanostructured Materials 46(1), 2013, pp. 31–37, DOI: 10.7508/jufgnsm.2013.01.005.
  • [10] DANKS A.E., HALL S.R., SCHNEPP Z., The evolution of ‘sol-gel’ chemistry as a technique for materials synthesis, Materials Horizons 3(2), 2016, pp. 91–112, DOI: 10.1039/C5MH00260E.
  • [11] BAUER J., ULATOWSKA-JARŻA A., PODBIELSKA H., LECHNA-MARCZYŃSKA M., BINDIG U., MÜLLER G., BEUTHAN J., Influence of heating temperature on structural properties of sol-gel materials, Optica Applicata 35(4), 2005, pp. 791–797.
  • [12] MOTLOUNG S.V., TSEGA M., DEJENE F.B., SWART H.C., NTWAEABORWA O.M., KOAO L.F., MOTAUNG T.E., HATO M.J., Effect of annealing temperature on structural and optical properties of ZnAl2O4: 1.5% Pb2+ nanocrystals synthesized via sol-gel reaction, Journal of Alloys and Compounds 677, 2016, pp. 72–79, DOI: 10.1016/j.jallcom.2016.03.170.
  • [13] BANSKI M., NOCULAK A., MISIEWICZ J., PODHORODECKI A., Rice oil as a green source of capping ligands for GdF3 nanocrystals, New Journal of Chemistry 40(9), 2016, pp. 7928–7934, DOI: 10.1039/ C6NJ01052K.
  • [14] ZHANG Z.J., YANG W., Luminescence characteristic of RE (RE = Pr, Sm, Eu, Tb, Dy) and energy levels of lanthanide ions in Gd5Si3O12N, Solid State Sciences 72, 2017, pp. 64–70, DOI: 10.1016/j.solid statesciences.2017.08.015.
  • [15] CHEN D., WANG Y., YU Y., HUANG P., Structure and optical spectroscopy of Eu-doped glass ceramics containing GdF3 nanocrystals, The Journal of Physical Chemistry C 112(48), 2008, pp. 18943–18947, DOI: 10.1021/jp808061x.
  • [16] LI H., LIU G., WANG J., DONG X., YU W., Eu3+/Tb3+ doped cubic BaGdF5 multifunctional nanophosphors: multicolor tunable luminescence, energy transfer and magnetic properties, Journal of Luminescence 186, 2017, pp. 6–15, DOI: 10.1016/j.jlumin.2017.02.005.
  • [17] CAO C., GUO S., MOON B.K., CHOI B.C., JEONG J.H., Synthesis, modified optical properties, and energy transfer of Tb3+ doped GdF3, Optics Communications 301-302, 2013, pp. 106–111, DOI: 10.1016/ j.optcom.2013.03.049.
  • [18] ZHANG X., HAYAKAWA T., NOGAMI M., ISHIKAWA Y., Selective synthesis and luminescence properties of nanocrystalline GdF3:Eu3+ with hexagonal and orthorhombic structures, Journal of Nanomaterials, 2010, article ID 651326, DOI: 10.1155/2010/651326.
  • [19] SAYED F.N., GROVER V., SUDARSAN V., PANDEY B.N., ASTHANA A., VATSA R.K., TYAGI A.K., Multicolored and white-light phosphors based on doped GdF3 nanoparticles and their potential bio-applications, Journal of Colloid and Interface Science 367(1), 2012, pp. 161–170, DOI: 10.1016/j.jcis.2011.09.083.
  • [20] BINNEMANS K., Interpretation of europium(III) spectra, Coordination Chemistry Reviews 295, 2015, pp. 1–45, DOI: 10.1016/j.ccr.2015.02.015.
  • [21] LAKSHMINARAYANA G., QIU J., BRIK M.G., KITYK I.V., Photoluminescence of Eu3+-, Tb3+-, Dy3+- and Tm3+-doped transparent GeO2–TiO2–K2O glass ceramics, Journal of Physics: Condensed Matter 20(33), 2008, article ID 335106, DOI: 10.1088/0953-8984/20/33/335106.
  • [22] LAVÍN V., RODRÍGUEZ-MENDOZA U.R., MARTÍN I.R., RODRÍGUEZ V.D., Optical spectroscopy analysis of the Eu3+ ions local structure in calcium diborate glasses, Journal of Non-Crystalline Solids 319(1–2), 2003, pp. 200–216, DOI: 10.1016/S0022-3093(02)01914-2.
  • [23] SZPIKOWSKA-SROKA B., PAWLIK N., GORYCZKA T., PIETRASIK E., BAŃCZYK M., PISARSKI W.A., Lead fluoride β-PbF2 nanocrystals containing Eu3+ and Tb3+ ions embedded in sol-gel materials: thermal, structural and optical investigations, Ceramics International 43(11), 2017, pp. 8424–8432, DOI: 10.1016/j.ceramint.2017.03.192.
  • [24] ATKINSON I., ANGHEL E.M., PREDOANA L., MOCIOIU O.C., JECU L., RAUT I., MUNTEANU C., CULITA D., ZAHARESCU M., Influence of ZnO addition on the structural, in vitro behavior and antimicrobial activity of sol-gel derived CaO–P2O5–SiO2 bioactive glasses, Ceramics International 42(2), 2016, pp. 3033 –3045, DOI: 10.1016/j.ceramint.2015.10.090.
  • [25] YANES A.C., DEL-CASTILLO J., MÉNDEZ-RAMOS J., RODRIGUEZ V.D., TORRES M.E., ARBIOL J., Luminescence and structural characterization of transparent nanostructures Eu3+-doped LaF3-SiO2 glass -ceramics prepared by sol-gel method, Optical Materials 29(8), 2007, pp. 999–1003, DOI: 10.1016/ j.optmat.2006.02.021.
  • [26] PISARSKA J., SOŁTYS M., JANEK J., GÓRNY A., PIETRASIK E., GORYCZKA T., PISARSKI W.A., Crystallization of lead-based and lead-free oxyfluoride germanate glasses doped with erbium during heat treatment process, Journal of Non-Crystalline Solids 501, 2018, pp. 121–125, DOI: 10.1016/j.jnoncrysol.20 18.01.005.
  • [27] GORNI G., PASCUAL M.J., CABALLERO A., VELÁZQUEZ J.J., MOSA J., CASTRO Y., DURÁN A., Crystallization mechanism in sol-gel oxyfluoride glass-ceramics, Journal of Non-Crystalline Solids 501, 2018, pp. 145–152, DOI: 10.1016/j.jnoncrysol.2018.01.031.
  • [28] SENTY T.R., YALAMANCHI M., ZHANG Y., CUSHING S.K., SEEHRA M.S, SHI X., BRISTOW A.D., Photoluminescence spectroscopy of YVO4:Eu3+ nanoparticles with aromatic linker molecules: a precursor to biomedical functionalization, Journal of Applied Physics 115(16), 2014, article ID 163107, DOI: 10.1063/1.4874179.
  • [29] SOŁTYS M., JANEK J., ŻUR L., PISARSKA J., PISARSKI W.A., Compositional-dependent europium-doped lead phosphate glasses and their spectroscopic properties, Optical Materials 40, 2015, pp. 91–96, DOI: 10.1016/j.optmat.2014.11.052.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-062ddabd-84c2-4dd0-94df-63964f8583ef
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