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Abstrakty
We present a synthesis of highly efficient xerogels doped with Ln 2–x Prx(WO4)3, where Ln = La or Gd as novel phosphors. For comparison, the synthesis of xerogels doped only with Pr(III) and La(III) ions was made. The photoluminescence properties of Pr(III) ions in xerogels were studied by means of luminescence spectroscopy. In particular, an efficient energy transfer from WO42– to Pr(III) ions was observed and demonstrated by their enhanced luminescence intensity. Especially interesting seems to be strong red acceptor emission observed upon excitation at 240 nm (donor excitation). Therefore, 4f–4f emission makes the system usable for red phosphor applications. Additionally, the emission intensity of the materials was improved by reducing concentration of such quenchers as water molecules and OH groups by the thermal treatment.
Czasopismo
Rocznik
Tom
Strony
359--366
Opis fizyczny
Bibliogr. 12 poz.
Twórcy
autor
autor
- Faculty of Chemistry, University of Gdańsk, Sobieskiego 18/19, 80-952 Gdańsk, Poland
Bibliografia
- [1] RONDA C.R., JÜSTEL T., NIKOL H., Rare earth phosphors: fundamentals and applications, Journal of Alloys and Compounds 275–277, 1998, pp. 669–676.
- [2] GROBELNA B., Luminescence based on energy transfer in xerogels doped with Tb2–xEux(WO4 )3,Optica Applicata 38(1), 2008, pp. 39–47.
- [3] GROBELNA B., SZABELSKI M., KLEDZIK K., KŁONKOWSKI A.M., Luminescent properties of Sm(III) ionsin Ln2–x (WO4 )3 entrapped in silica xerogel, Journal of Non-Crystalline Solids 353(30–31), 2007,pp. 2861–2866.
- [4] LIANHUA TIAN, SUN-IL MHO, ZHE JIN, Luminescence properties of red-emitting praseodymium--activated BaTi4O9 phosphor, Journal of Luminescence 129(8), 2009, pp. 797–800.
- [5] VOLOSHIN A.I., SHAVALEEV N.M., KAZAKOV V.P., Luminescence of praseodymium (III) chelates from excited states (3P0 and 1D2) and its dependence on ligand triplet state energy, Journal of Luminescence 93(3), 2001, pp. 199–204.
- [6] LIANHUA TIAN, SUN-IL MHO, Enhanced luminescence of SrTiO3:Pr3+ by incorporation of Li+ ion, Solid State Communications 125(11–12), 2003, pp. 647–651.
- [7] BOILOT J.-P., GACOIN T., PERRUCHAS S., Synthesis and sol–gel assembly of nanophosphors, Comptes Rendus Chimie 13(1–2), 2010, pp. 186–198.
- [8] BREDOL M., GUTZOV S., JÜSTEL T., Highly efficient energy transfer from Ge-related defects to Tb3+ ions in sol–gel derived glasses, Journal of Non-Crystalline Solids 321(3), 2003, pp. 225–230.
- [9] GARCIA-MURILLO A., LE LUYER C., GARAPON C., DUJARDIN C., BERNSTEIN E., PEDRINI C., MUGNIER J.,Optical properties of europium-doped Gd2O3 waveguiding thin films prepared by the sol–gel method,Optical Materials 19(1), 2002, pp. 161–168.
- [10] BRINKER C.J., SCHERER G.W., Sol–Gel Science. The Physics and Chemistry of Sol–Gel Processing,Chapter 13, Acadmic Press, Boston, 1990.
- [11] GROBELNA B., Luminescence based on energy transfer in xerogels doped with Ln2–x Tbx(WO4 )3,Journal of Alloys and Compounds 440(1–2), 2007, pp. 265–269.
- [12] GROBELNA B., BOJARSKI P., Red emission of Eu(III) ions doped gadolinium or lanthanum tungstate entrapped in silica xerogel, Journal of Non-Crystalline Solids 355(45–47), 2009, pp. 2309–2313.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW7-0012-0156