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作 者:韩亚芬[1] 陆天虹[1] 李邨[1] 黄晓华[1]
机构地区:[1]南京师范大学化学与环境科学学院,江苏南京210097
出 处:《南京师大学报(自然科学版)》2007年第2期58-62,共5页Journal of Nanjing Normal University(Natural Science Edition)
基 金:国家自然科学基金(20471030);国家发改委稀土专项基金(GFZ040628);江苏省高新技术基金(BG2005040)资助项目
摘 要:Eu3+与不同分子量的聚二甲基硅氧烷(PDMS)形成的配合物PDMS-Eu(Ⅲ)受紫外光激发后,激发的PDMS将吸收的能量传递给Eu(Ⅲ),使Eu(Ⅲ)受到激发,因而使其在可见光区的发射荧光峰增强.由于PDMS-Eu(Ⅲ)中不同分子量的PDMS的构象不同,受光激发后的能量也不同,因此,含不同分子量PDMS配体的PDMS-Eu(Ⅲ)从PDMS到Eu(Ⅲ)的能量传递效率也不同,使Eu(Ⅲ)在可见光区的发射荧光峰峰强也不同.当PDMS的分子量为30 000时,PDMS-Eu(Ⅲ)的能量传递效率最高,可达48.2%,因而Eu(Ⅲ)在可见光区的发射荧光峰峰强最强.After PDMS - Eu(Ⅲ) complexes formed from Eu^3+ and PDMS is excited with ultraviolet light, the excited PDMS would transfer the absorption energy to Eu( Ⅲ ), leading to the increase in the emission fluorescence peaks of Eu( Ⅲ ) in the visible area. Because the conformations of PDMS - Eu( Ⅲ) complexes with PDMS of different molecular weights are different, their energies are different after the excitation of the light. Thus, their energy transfer efficiency from PDMS to Eu ( Ⅲ ) are different, leading to the different intensity of the emission fluorescence peaks of Eu ( Ⅲ ) in the visible area. When the molecular weight of PDMS is 30 000, the energy transfer efficiency of PDMS - Eu (Ⅲ) is the highest. It reaches 48. 2%. Therefore, the intensity of the emission fluorescence peaks of Eu(Ⅲ ) in the visible area is the highest.
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