The exploration of efficient and high-purity red phosphors is an urgent need in LED development. Due to the compact and compositional-tunable structure of whitlockite compound, manganese-based Ca19Mn2(PO4)(14) is chosen as phosphor host for Eu2+ sensitization. Rietveld refinement, steady-state spectra, decay lifetime analysis and temperature-dependent emission spectra were investigated and clearly discussed. Under 360 nm excitation, Ca19Mn2(PO4)(14): Eu2+ shows a strong Mn2+ sensitized emission at 655 nm with FWHM of 82 nm, benefiting from the short-distance-induced high-efficient Eu2-Mn2+ energy transfer. Emission engineering of Ca19Mn2(PO4)(14): Eu2+ is achieved by Sr2+ co-doping, leading to both tunable peak wavelength (ranging from 650 to 610 nm) and improved intensity (130% of original value). Moreover, Ca19Mn2(PO4)(14): Eu2+ exhibits a promising thermal stability where only 40% of emission intensity is lost at 200 degrees C. Finally, we explored the working performance of the fabricated RGB phosphor-converted white LED. The present work indicates that Ca19Mn2(PO4)(14): Eu2+ phosphor is of great potential as a promising and efficient red phosphor in phosphor-converted white LED.

• 单位
  南方医科大学