Dong Qi-wu scite author profile

Single‐phase white luminescence phosphors are emerging for potential phosphor‐converted white light‐emitting diodes (pc‐WLEDs) and alternatives to trichromatic phosphor blends. In this work, Ba2ZnWO6:Bi3+ phosphors are prepared by a high‐temperature solid‐state reaction method and the luminescent properties are investigated. The broadband excitation from 250 to 400 nm is perfectly matched with the emission of nearly ultraviolet (n‐UV) InGaN chip, which ultrabroadband emission band (full width at half maximum = 217 nm) can cover a wider luminescence region. Li+/Na+/K+ codoping is more desirable for the ultrabroadband emission of Ba2ZnWO6:0.006Bi3+ due to the charge compensation and rationally designed lattice distortion while improving the thermal stability of the phosphor. Furthermore, tunable emissions can be achieved either by changing the content of doped ions or the excitation wavelength due to the different occupation of Ba2+ and Zn2+ sites by Bi3+ ions. Finally, single‐phase warm WLED ((x, y) = (0.4170, 0.4035)) devices with a correlated color temperature of 3329 K and color rendering index of Ra = 75.3 are successfully prepared using Ba2ZnWO6:0.006Bi3+, 0.03Na+ phosphor, and 365 nm InGaN chips. These results indicate that Ba2ZnWO6:Bi3+ has excellent potential as phosphor for n‐UV pc‐WLEDs and provides new ideas for the application of ultrabroadband emitting phosphors in WLEDs.

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Influences of fluorine on microphase separation in fluorinated polyurethanes

Wang

et al. 2016

Polymer

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Dong Qi-wu

A soluble ladder copolymer from m-phenylenediamine and ethoxyaniline

Sr₃Y(BO₃)₃:Bi³⁺ phosphor with excellent thermal stability and color tunability for near-ultraviolet white-light LEDs

Single Bi³⁺ Ultrabroadband White Luminescence in Double Perovskite via Crystal Lattice Engineering toward Light‐Emitting Diode Applications

Influences of fluorine on microphase separation in fluorinated polyurethanes

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Dong Qi-wu

A soluble ladder copolymer from m-phenylenediamine and ethoxyaniline

Sr3Y(BO3)3:Bi3+ phosphor with excellent thermal stability and color tunability for near-ultraviolet white-light LEDs

Single Bi3+ Ultrabroadband White Luminescence in Double Perovskite via Crystal Lattice Engineering toward Light‐Emitting Diode Applications

Influences of fluorine on microphase separation in fluorinated polyurethanes

Contact Info

Product

Resources

About

Sr₃Y(BO₃)₃:Bi³⁺ phosphor with excellent thermal stability and color tunability for near-ultraviolet white-light LEDs

Single Bi³⁺ Ultrabroadband White Luminescence in Double Perovskite via Crystal Lattice Engineering toward Light‐Emitting Diode Applications