光纤荧光传感器用稀土活化荧光粉聚合物涂层

Rodolfo A. Carrillo-Betancourt, J. Hernández-Cordero
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引用次数: 2

摘要

色氨酸荧光提供了一种方法来跟踪细胞增殖的事件,如伤口愈合,肿瘤和其他慢性疾病。荧光发射峰位于345 nm(紫外范围)左右,通常通过光谱测量进行分析。一般来说,光纤在该波长范围内的透射性较差,这阻碍了该波导用于色氨酸荧光监测或其他具有紫外荧光的分子。然而,连接到传统光纤尖端的下转换荧光粉可能提供一种在该光谱范围内改进荧光检测的机制。在这项工作中,我们探索了由聚合物基质承载的紫外线敏感荧光粉的使用,这种荧光粉可以结合在传统光纤的尖端上,用于紫外线荧光监测。特别是,我们评估了eu活化荧光粉在345 nm的吸收性能和在450-650 nm范围内发射多个荧光峰的性能。通过简单的混合程序将荧光粉掺入聚二甲基硅氧烷(PDMS)中,产生对紫外线敏感的聚合物复合材料。使用不同浓度的荧光粉(即0.1、0.5、2.5、12.5和62.5%重量/重量)制备该复合材料的膜,并评估其光学和热性能。该聚合物复合材料具有良好的热稳定性,可用于常规光纤。由此产生的光纤荧光传感器可作为色氨酸或其他紫外线发射器的荧光监测工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Polymer coatings with rare-earth activated phosphors for optical fiber fluorosensors
Tryptophan fluorescence offers a means for tracking cellular proliferation in events such as wounds closure, neoplasm and others chronic conditions. The peak fluorescence emission is located around 345 nm (UV range) and is typically analyzed through spectroscopic measurements. In general, optical fibers show poor transmission in this wavelength range, and this hinders the use of this waveguides for tryptophan fluorescence monitoring or other molecule with UV fluorescence. However, down conversion phosphors attached to conventional fiber tips may provide a mechanism for improved fluorescence detection in this spectral range. In this work, we explore the use of UV-sensitive phosphors hosted by a polymer matrix that can be incorporated on the tip of conventional optical fibers for UV-fluorescence monitoring. In particular, we evaluate the performance of Eu-activated phosphors absorbing at 345 nm and emitting multiple fluorescence peaks in the 450-650 nm range. The phosphors are incorporated in polydimethylsiloxane (PDMS) by a simple mixing procedure, yielding a UV-sensitive polymer composite. Membranes of this composited were fabricated using different concentrations of the phosphors (i.e. 0.1, 0.5, 2.5, 12.5 and 62.5% wt./wt.), and their optical and thermal properties were evaluated. The polymer composites show good thermal stability and can be incorporated on conventional optical fibers. The resulting fiber optic fluorosensors may serve as a tool for fluorescence monitoring of tryptophan or other UV emitters.
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