Doped Epoxy Resins as an Alternative to Luminescent Optical Sensors

Applied Sciences Pub Date : 2024-07-16 DOI:10.3390/app14146170

Małgorzata Gil-Kowalczyk, Paweł Mergo

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Abstract

The main objective of the study was to prepare and then subject to thorough analysis photosensitive materials to determine their usability as materials for the production of special polymer optical fibers. A comparison of the physicochemical properties of compositions containing commercially available fluorescein with compositions doped with 2.7-dihydroxy naphthalene with epichlorohydrin (2.7-NAF.EP) was made. The degree of copolymer conversion, which is one of the most important parameters confirming the effectiveness of the curing method, was calculated based on ATR-FT-IR spectra. Additionally, in order to check the processing capabilities of the obtained compositions, a thorough thermal and spectroscopic analysis was performed (the best method used for this purpose is the coupled analysis technique (TG-DSC-MS)). The obtained results indicate that the photoluminescent properties of the dopants used were not suppressed after their introduction into the matrix. Thermal and spectroscopic analysis allowed us to determine the polymerization conditions in which the physicochemical properties of the obtained materials are the best from the optical fiber-technology point of view.

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掺杂环氧树脂作为发光光学传感器的替代品

这项研究的主要目的是制备光敏材料，然后对其进行全面分析，以确定它们是否可用作生产特种聚合物光纤的材料。对含有市售荧光素的组合物和掺杂 2.7-二羟基萘与环氧氯丙烷（2.7-NAF.EP）的组合物的理化性质进行了比较。共聚物的转化程度是确认固化方法有效性的最重要参数之一，根据 ATR-FT-IR 光谱计算得出。此外，为了检验所获得成分的加工能力，还进行了全面的热分析和光谱分析（为此采用的最佳方法是耦合分析技术（TG-DSC-MS））。结果表明，所用掺杂剂的光致发光特性在进入基体后并未受到抑制。通过热分析和光谱分析，我们确定了聚合条件，在这种条件下，从光纤技术的角度来看，所获得材料的物理化学特性最佳。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Applied Sciences

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