| Literature DB >> 25002064 |
Haomiao Zhu1, Chun Che Lin2, Wenqin Luo1, Situan Shu1, Zhuguang Liu1, Yongsheng Liu1, Jintao Kong1, En Ma1, Yongge Cao1, Ru-Shi Liu2, Xueyuan Chen1.
Abstract
Mn(4+)-activated fluoride compounds, as an alternative to commercial (oxy)nitride phosphors, are emerging as a new class of non-rare-earth red phosphors for high-efficacy warm white LEDs. Currently, it remains a challenge to synthesize these phosphors with high photoluminescence quantum yields through a convenient chemical route. Herein we propose a general but convenient strategy based on efficient cation exchange reaction, which had been originally regarded only effective in synthesizing nano-sized materials before, for the synthesis of Mn(4+)-activated fluoride microcrystals such as K2TiF6, K2SiF6, NaGdF4 and NaYF4. Particularly we achieve a photoluminescence quantum yield as high as 98% for K2TiF6:Mn(4+). By employing it as red phosphor, we fabricate a high-performance white LED with low correlated colour temperature (3,556 K), high-colour-rendering index (Ra=81) and luminous efficacy of 116 lm W(-1). These findings show great promise of K2TiF6:Mn(4+) as a commercial red phosphor in warm white LEDs, and open up new avenues for the exploration of novel non-rare-earth red emitting phosphors.Entities:
Year: 2014 PMID: 25002064 DOI: 10.1038/ncomms5312
Source DB: PubMed Journal: Nat Commun ISSN: 2041-1723 Impact factor: 14.919