Phosphors surface modification and luminescence enhancement by microwave energy

Nano-rod particles spread on the sand-milled Y2O3 submicron phosphor particles surface resulted in a reduction of crystallinity and luminescence. It exhibited an abnormally large particle size with a step-like particle surface by furnace annealing at 1400 °C–10 min with a ramp 10 °C/min. The decreased photoluminescence (PL) and crystallinity could be recovered to the original intensity of commercial phosphors by furnace and microwave annealing. The 611 nm PL intensity and crystallinity of 900 °C with a ramp >40 °C/min microwave annealed samples was higher than that of the 1200 °C with a ramp 10 °C/min furnace annealed ones. The main differences between microwave and furnace annealing were fast smoothing, recrystallization with a limited grain growth and effective activator homogenization at a lower temperature for the microwave annealing.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Nano-rod particulates spread on the submicron particle surface after sand-milling. ► The decreased PL intensity could be recovered by furnace and MW annealing. ► Microwave (MW) contributed to smooth and recrystallization of nano-rod particles. ► Fast smoothing/recrystallization/effective activator homogenization by MW.