Ultra‐narrow band blue emission of Eu 2+ in halogenated (Alumino)borate systems based on high lattice symmetry

Phosphor materials with ultra‐high color purity are highly desired in backlit display and WLED s. How to achieve high‐purity three‐primary emission in rare earth ions activated inorganic phosphors has become a hot topic. Herein, we reported ultra‐narrow band and highly efficient blue‐violet‐emitting Eu 2+ ‐doped Ba 2 B 5 O 9 X (fwhm = 31 nm) and NaBa 4 (AlB 4 O 9 ) 2 X 3 (X = Cl, Br) (fwhm = 43 nm) phosphors with peak positions around 424‐437 nm. Especially, the color purity of Ba 2 B 5 O 9 Cl:Eu sample even exceeded 97%, its internal quantum efficiency could achieve 87%. The EXANES analysis revealed that the Eu mainly existed in the form of +2. According to the Rietveld structural refinement, extraordinarily narrow band emission should be attributed to the highly symmetric lattice structures with the flower‐like polyhedrons in the studied (alumino)borate matrix. Significantly, the color gamut of as‐prepared blue phosphor combined with the standard green and red phosphors was almost close to that of Rec. 2020 display standard. In addition, cation substitution strategy in NaBa 4 (Al x B 5‐ x O 9 ) 2 Cl 3 ( x = 0‐4) and NaBa 4 (Ga y B 5‐ y O 9 ) 2 Cl 3 ( y = 0‐3) samples successfully achieved spectra adjustment, and the underlying mechanism was proposed. All these results demonstrate that the as‐prepared phosphors could be superior blue‐emitting candidates for backlit display as well as WLED s.