Enhancement of stability of polymer composite fluorescent materials
聚合物复合荧光材料的稳定性提升

摘要

聚合物复合荧光材料因其优异的光学特性和广泛的应用前景，在许多领域中得到了广泛研究。聚合物复合荧光材料的稳定性问题始终是限制其商业化应用的关键因素之一。本文提出了一种通过改善聚合物基质和荧光物质之间的相互作用来提升材料稳定性的新策略。研究发现，优化复合材料的结构和组成能够有效提高其耐热性、耐光性及抗氧化性，从而显著提升其长期稳定性。通过实验验证，所提出的方法在延长聚合物复合荧光材料使用寿命方面展现出优异的性能。本文为聚合物复合荧光材料的进一步应用提供了新的思路和方法。

Abstract

Polymer composite fluorescent materials have been extensively studied in many fields due to their excellent optical properties and broad application prospects. The stability issue of polymer composite fluorescent materials has always been one of the key factors restricting their commercial application. This paper proposes a new strategy to improve the stability of the materials by enhancing the interaction between the polymer matrix and the fluorescent substances. It is found that optimizing the structure and composition of the composite materials can effectively improve their heat resistance, light resistance and oxidation resistance, thereby significantly enhancing their long-term stability. Experimental verification shows that the proposed method exhibits excellent performance in extending the service life of polymer composite fluorescent materials. This paper provides new ideas and methods for the further application of polymer composite fluorescent materials.