Synthesis of high-efficiency red-emission Ca14Zn6Al9.97Mn0.03O35 phosphors with particle control

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Highly efficient Ca14Zn6Al9.97-Mn0.03O35 (CZAMO) red phosphors with various-sized particles from the nano to the micron size were synthesized using the liquid phase precursor (LPP) method. The particle size of the CZAMO phosphor obtained at 1000?°C is less than 150?nm, but it grew to the micron sizes with the increasing of the firing temperature. The red-emission wavelength range of the CZAMO phosphors is from 650 to 750?nm with the 713-nm emission peak (excited at 450?nm). When the CZAMO phosphor synthesized by LPP method (L-CZAMO) was compared with CZAMO phosphor synthesized by the solid states reaction (SSR) method (S-CZAMO), the photoluminescence (PL) intensity of the L-CZAMO is four times larger (14% higher) than that of the S-CZAMO at 1000?°C (1200?°C).

» Author: Man Gyu Hur, Seung Hee Choi, Seok Bin Kwon, Takaki Masaki, Kenji Toda, Dae Ho Yoon

» Reference: 10.1016/j.ceramint.2018.05.269

» Publication Date: 01/09/2018

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