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杂化材料Eu(Phen)_2Cl_3/MCM-48的荧光性能及热稳定性 被引量:2

Photoluminescence and Thermal Stability of Hybrid Materials Eu(Phen)_2Cl_3/MCM-48
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摘要 采用超声波辅助,溶液浸渍法将稀土配合物Eu(Phen)2Cl3装入中孔分子筛MCM-48孔道,合成了不同组装量的杂化材料Eu(Phen)2Cl3/MCM-48。运用XRDI、CP、N2吸附-脱附、DTA-TG、TEM、荧光光谱等手段对杂化材料进行了表征,研究表明稀土配合物已进入分子筛孔道,且随着配合物嵌入量的增加,杂化材料的荧光发射也逐渐增强。经ICP分析得出Eu(Phen)2Cl3在MCM-48中的饱和吸附量为8.6%,此时荧光强度最大。与纯稀土配合物Eu(Phen)2Cl3相比,Eu(Phen)2Cl3/MCM-48的热稳定性提高了约200℃。 A series of hybrid materials Eu(Phen)2Cl3/MCM-48 have been synthesized by sol-soaking of MCM-48 into Eu(Phen)2Cl3 methanol solution under the assistant of ultrasonic. The as-prepared products were characterized by XRD, ICP, BET, DTA-TG, TEM, and PL, respectively. The results indicate that the rare earth compound has been doped into the hole of mesoporouse material MCM-48. The PI. intensities of the hybrid materials increase with increasing of the doping concentration of the rare-earth complexes. According to the ICP analysis, the saturated doping concentration of Eu(Phen)2 Cl3 is 8.6 % (mt % ), at which the PL intensity of the hybrid matorial reaches the maximum. Compared with the pure rare-earth complex, the thermal stability of the hybrid materials is enhanced by about 200 ℃.
出处 《材料科学与工程学报》 CAS CSCD 北大核心 2008年第4期589-592,共4页 Journal of Materials Science and Engineering
基金 上海科技发展基金资助项目(0752nm008)
关键词 Eu(Ⅲ)配合物 MCM-48 杂化材料 荧光性能 热稳定性 Eu(Ⅲ) complexes MCM-48 hybrid materials photoluminescence thermal stability
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