Absorption Property of YAG: Sm Phosphors Prepared using Sol-Gel Combustion Method
来源期刊:JOURNAL OF RARE EARTHS2007年增刊第1期
论文作者:Wang lixi Mu Lei Zhang Qitu Huang Yun
Key words:absorption; YAG; sol-gel combustion process; rare earths;
Abstract: Samarium-doped yttrium aluminum garnet (YAG: Sm3+) phosphors were synthesized by nitrate-citrate sol-gel combustion method. Phase evolution, morphology and absorbency of the obtained materials were characterized by XRD, FESEM, reflection spectrum, respectively. The experimental results showed that single-phase cubic YAG: Sm3+ crystalline was directly obtained at 800℃ from amorphous precursor, and mostly developed at 900℃. The prepared powders were relatively agglomerated with an average particle size of 300nm. The reflection spectrum showed that there were several apparent characteristic absorption peaks due to the 4f→4f inner shell electron transitions from the 6H5/2 ground state to 6FJ (J=9/2,7/2 and 5/2) excited state of Sm3+. Moreover, the intensity of the characteristic peaks was enhanced with the increasing concentration of Sm3+ ions.
Wang lixi1,Mu Lei1,Zhang Qitu1,Huang Yun1
(1.College of Materials Science and Engineering, Nanjing University of Technology, Nanjing 210009, China)
Abstract:Samarium-doped yttrium aluminum garnet (YAG: Sm3+) phosphors were synthesized by nitrate-citrate sol-gel combustion method. Phase evolution, morphology and absorbency of the obtained materials were characterized by XRD, FESEM, reflection spectrum, respectively. The experimental results showed that single-phase cubic YAG: Sm3+ crystalline was directly obtained at 800℃ from amorphous precursor, and mostly developed at 900℃. The prepared powders were relatively agglomerated with an average particle size of 300nm. The reflection spectrum showed that there were several apparent characteristic absorption peaks due to the 4f→4f inner shell electron transitions from the 6H5/2 ground state to 6FJ (J=9/2,7/2 and 5/2) excited state of Sm3+. Moreover, the intensity of the characteristic peaks was enhanced with the increasing concentration of Sm3+ ions.
Key words:absorption; YAG; sol-gel combustion process; rare earths;
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