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A First-Principles Explanation of the Luminescent Line Shape of SrLiAl<sub>3</sub>N<sub>4</sub>:Eu<sup>2+</sup> Phosphor for Light-Emitting Diode Applications

Julien Bouquiaux, Samuel Poncé, Yongchao Jia, Anna Miglio, Masayoshi Mikami, Xavier Gonze

2023Chemistry of Materials18 citationsDOIOpen Access PDF

Abstract

White light-emitting diodes are gaining popularity and are set to become the most common light source in the U.S. by 2025. However, their performance is still limited by the lack of an efficient red-emitting component with a narrow band emission. The red phosphor SrLiAl 3 N 4:Eu 2+ is among the first promising phosphors with a small bandwidth for next-generation lighting, but the microscopic origin of this narrow emission remains elusive. In the present work, density functional theory, the ΔSCF-constrained occupation method, and a generalized Huang–Rhys theory are used to provide an accurate description of the vibronic processes occurring at the two Sr 2+ sites that the Eu 2+ activator can occupy. The emission band shape of Eu(Sr1), with a zero-phonon line at 1.906 eV and a high luminescence intensity, is shown to be controlled by the coupling between the 5d z 2 –4f electronic transition and the low-frequency phonon modes associated with the Sr and Eu displacements along the Sr channel. The good agreement between our computations and experimental results allows us to provide a structural assignment of the observed total spectrum. By computing explicitly the effect of the thermal expansion on zero-phonon line energies, the agreement is extended to the temperature-dependent spectrum. These results provide insight into the electron–phonon coupling that accompanies the 5d–4f transition in similar UCr 4 C 4 -type phosphors. Furthermore, these results highlight the importance of the Sr channel in shaping the narrow emission of SrLiAl 3 N 4:Eu 2+, and they shed new light on the structure–property relations of such phosphors.

Topics & Concepts

PhosphorEmission spectrumPhononLuminescenceLight-emitting diodeDensity functional theoryPhysicsDiodeActivator (genetics)OptoelectronicsMaterials scienceAtomic physicsChemistryCondensed matter physicsSpectral lineQuantum mechanicsGeneBiochemistryLuminescence Properties of Advanced MaterialsPerovskite Materials and ApplicationsInorganic Chemistry and Materials
A First-Principles Explanation of the Luminescent Line Shape of SrLiAl<sub>3</sub>N<sub>4</sub>:Eu<sup>2+</sup> Phosphor for Light-Emitting Diode Applications | Litcius