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Title

Revealing substitution mechanism in Eu3+:CaMoO4 and Eu3+,Na+:CaMoO4 phosphors

AuthorsBecerro, Ana Isabel CSIC ORCID; Allix, Mathieu; Laguna, Mariano CSIC ORCID; González-Mancebo, Daniel; Genevois, Cécile; Caballero, Alfonso CSIC ORCID; Lozano, Gabriel CSIC ORCID; Núñez, Nuria O. CSIC ORCID; Ocaña, Manuel CSIC ORCID
Issue Date2018
PublisherRoyal Society of Chemistry (UK)
CitationJournal of Materials Chemistry C, 2018
AbstractEu3+-Doped calcium molybdate is an excellent phosphor for lighting and display devices due to the very intense pure red emission after UV excitation. It has been reported in the literature that the CaMoO4 unit cell volume expands after Eu3+ doping, in spite of the smaller Eu3+ ionic radius compared with Ca2+. Likewise, several studies found that the emission intensity of the phosphor could be improved by codoping with alkaline ions like Li+, Na+ or K+. None of these studies correlated the apparent volume expansion and luminescence enhancement with the crystal structural details. This paper analyses the aliovalent substitution mechanism and crystal structure of Eu3+:CaMoO4 and Eu3+,Na+:CaMoO4 phosphors using complementary techniques like Raman spectroscopy, EXAFS and SPD. We found that the substitution mechanism was different for both systems, with Ca site vacancies forming in the Eu3+:CaMoO4 phosphors and leading to Ca1−3xEu2x□xMoO4 compositions, while the Eu3+,Na+:CaMoO4 phosphors formed Ca1−2xEuxNaxMoO4. SPD showed that the cell volume expansion observed with increasing Eu3+ content is related to the increase of the Mo–O bond distance due to the higher electronegativity of Eu3+ compared with Ca2+. Finally, it was shown that the luminescence properties, i.e. lifetime values and quantum yields (the latter reported here for the first time), do not depend on the presence of monovalent ions in the crystal structure but, exclusively, on the Eu3+ content of the phosphor. The integral and detailed analysis of the materials presented in this paper, ranging from crystal structure to luminescent properties including elemental composition, allows a full picture of the structure–property relationships that had never been addressed before for CaMoO4-based phopshors.
Publisher version (URL)htpp://dx.doi.org/10.1039/C8TC04595J
URIhttp://hdl.handle.net/10261/172081
DOI10.1039/C8TC04595J
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