Spectroscopy of new Sm(III) orange emitting phosphors of the type Na[Sm(SP)4], Na[Sm(WO)4] (where SP = C6H5S(O)2NP(O)(OCH3)2−; WO = CCl3C(O)NP(O)(OCH3)2−) and the polymeric materials obtained on their base

Spectroscopy of new Sm(III) orange emitting phosphors of the type Na[Sm(SP)4], Na[Sm(WO)4] (where SP = C6H5S(O)2NP(O)(OCH3)2−; WO = CCl3C(O)NP(O)(OCH3)2−) and the polymeric materials obtained on their base

Among a wide variety of solid state materials lanthanide beta-diketonates, their derivatives and polymeric materials based on them have become essential for advance technologies. Thus they are the subject of extensive spectroscopic studies. Using appropriate lanthanide chelates for the emission laye...

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Bibliographic Details
Published in:Optical materials Vol. 63; pp. 32 - 41
Main Authors: Cybińska, Joanna, Guzik, Małgorzata, Gerasymchuk, Yuriy, Trush, Victor A., Lisiecki, Radosław, Legendziewicz, Janina
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2017
Subjects:
Beta-diketonates
Orange emission
Polymeric materials
Sm3
Sm3
Beta-diketonates
Polymeric materials
Orange emission
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Summary:Among a wide variety of solid state materials lanthanide beta-diketonates, their derivatives and polymeric materials based on them have become essential for advance technologies. Thus they are the subject of extensive spectroscopic studies. Using appropriate lanthanide chelates for the emission layer one can achieve electroluminescence covering the spectrum from blue to infrared. Moreover, compounds with proper chromophores can be the best way to excite and enhance the emission although the f-f transitions have forbidden character. Two types of new Sm(III) chelates; phosphoro and sulfono-derivatives of beta-diketones and polymeric materials on their base were obtained and characterized by the high resolution photoluminescence spectroscopy at 293, 77 and 4 K, as well as by luminescence decay times. Those new type of phosphors shows strong orange emission after excitation at 404 nm Sm(III) states and 280 nm ligand bands. Radiative transition probabilities were calculated from absorption spectra and Judd- Ofelt parameters evaluated. Effects of the temperature, rigidity of polymeric lattice and the energy of excitation on intensities of the Sm(III) fluorescence were studied. The paths of energy transfer are analysed and mechanism of this process is proposed. •Two kind of photochemically and thermally stable Sm(III) phosphors were synthetized.•The radiative transitions probabilities using Judd-Ofelt theory were analysed in absorption and emission spectra at 4.2, 77 and 293 K.•The possible paths of the energy transfer are considered and mechanism of E-T was proposed.
ISSN:0925-3467
1873-1252
DOI:10.1016/j.optmat.2016.08.039