Yan Dongpeng, Lu Jun, Wei Min, Evans David G, Duan Xue
State Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Beijing, 100029, P. R. China.
J Phys Chem B. 2009 Feb 5;113(5):1381-8. doi: 10.1021/jp8084217.
Sulforhodamine B (SRB) and dodecylbenzenesulfonate (DBS) with different molar ratios cointercalated into the interlayer region of Mg-Al-layered double hydroxide (SRB-DBS/LDH) were prepared. The structure and chemical composition of the composites were characterized by X-ray diffraction, elemental analysis, thermogravimetry, and differential thermal analysis (TG-DTA). Fluorescence spectra demonstrate that the sample with 4.76% SRB molar percentage, with respect to the total organic material, exhibits the optimal luminous intensity. The fluorescence lifetime of SRB in SRB-DBS/LDH is enhanced significantly compared with that of pristine SRB in solution (4.14 vs 2.05 ns). SRB-DBS/LDH thin films on the quartz substrates were constructed by the solvent evaporation method. Steady-state polarization photoemission spectra show that the luminescence anisotropy of SRB-DBS/LDH thin films (r=0.10) was enhanced remarkably compared with that of a powder sample (r=0+/-0.01) at ambient temperature, whereas the anisotropy of both film and powder samples was largely improved at low temperature (77 K). Furthermore, the SRB-DBS/LDH thin films exhibit a luminescence anisotropy decay effect in the range of their fluorescence lifetime. These results demonstrate that the SRB-DBS/LDH thin films could be used as a good candidate for the immobilization of laser dyes and polarized luminescence materials.
制备了不同摩尔比的磺基罗丹明B(SRB)和十二烷基苯磺酸盐(DBS)共插层进入Mg-Al层状双氢氧化物(SRB-DBS/LDH)的层间区域的复合材料。通过X射线衍射、元素分析、热重分析和差示热分析(TG-DTA)对复合材料的结构和化学成分进行了表征。荧光光谱表明,相对于总有机材料,SRB摩尔百分比为4.76%的样品表现出最佳发光强度。与溶液中原始SRB相比,SRB-DBS/LDH中SRB的荧光寿命显著提高(4.14对2.05 ns)。通过溶剂蒸发法在石英基板上制备了SRB-DBS/LDH薄膜。稳态偏振光发射光谱表明,在室温下,SRB-DBS/LDH薄膜的发光各向异性(r=0.10)与粉末样品(r=0±0.01)相比显著增强,而在低温(77 K)下,薄膜和粉末样品的各向异性都有很大改善。此外,SRB-DBS/LDH薄膜在其荧光寿命范围内表现出发光各向异性衰减效应。这些结果表明,SRB-DBS/LDH薄膜可作为固定激光染料和偏振发光材料的良好候选材料。