Novel BaGe1-xSixF6: Mn4+ (0 <= x <= 1) red phosphors for warm white LEDs: Hydrothermal synthesis and photoluminescence properties

摘要

Novel Mn4+-doped BaGe1-xSixF6: Mn4+ (0 <= x <= 1) red-emitting phosphors were successfully synthesized through a facile and efficient hydrothermal route. The effects of Ge/Si ratio (x) on the microstructure, chemical composition and optical features of as-synthesized BaGe1-xSixF6: Mn4+ crystals were studied in detail. The BaGe1-xSixF6: Mn4+ solid solutions have rhombohedral structure, and the as-obtained samples contain well crystallized microcrystals with predominant rod-like morphology. Under the excitation at 471 nm, the BaGe1-xSixF6: Mn4+ microcrystals exhibit a series of sharp characteristic emission bands of Mn4+ in red range (610-650 nm), showing the strongest red emission at-636 nm. It is found that the PL intensity, fluorescence decay time and thermal stability of the BaGe1-xSixF6: Mn4+ samples can be efficiently improved through rational regulating the SO+ concentration, displaying variation tendency of increasing firstly and then decreasing with the ascending concentration of Si4+. A set of warm white light-emitting diodes by merging BaGe1-xSixF6: Mn4+ phosphors, blue chip (similar to 460 nm) and commercial YAG: Ce yellow phosphor possess high color rendering index (CRI, Ra > 80) and low correlated color temperature (CCT < 4500 K), having potential application in indoor lighting. (C) 2020 Elsevier B.V. All rights reserved.