一种非晶态光致发光Eu/Zr混合配位化合物的合成及结构表征

Decis. Sci. Pub Date : 2022-11-11 DOI:10.3390/sci4040043
Ayla Roberta Borges Serra, Thiago Rui Casagrande, J. F. de Lima, M. F. de Oliveira, S. Júnior, Marcos de Oliveira Junior, O. A. Serra
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引用次数: 2

摘要

采用水热法合成了锆/铕离子与苯三羧酸混合的水凝胶。干燥后形成固体玻璃状物质,发出强烈的红色光。该系统通过固态核磁共振、热分析和红外光谱进行了表征。结果表明,金属氧化物簇与苯三羧酸之间存在至少四种类型的结合模式。另一方面,热重分析(TGA)显示出高的热稳定性,材料在高于500℃的温度下分解。强烈的Eu3+发光与大热稳定性的结合使该材料成为射击残留物(GSR)发光红色标记物的有力候选材料。作为概念证明,我们通过使用我们的化合物作为GSR标记进行射击测试来展示该应用程序的可行性。射击后,使用紫外灯(λ = 254 nm),可以在触发的枪弹、枪口内部以及射手手上看到少量残留的发光颗粒。值得注意的是,我们的结果还表明,GSR的Eu3+发射与原始固体材料的Eu3+发射非常相似。这些特性非常重要,因为它们提供了在弹药中使用少量标记物的机会,降低了潜在工业制造过程的成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis and Structural Characterization of an Amorphous and Photoluminescent Mixed Eu/Zr Coordination Compound, a Potential Marker for Gunshot Residues
Hydrogels based on mixed zirconium/europium ions and benzene tricarboxylic acid were synthesized by hydrothermal reaction. A solid glass-like material is formed upon drying, showing strong reddish luminescence. The system was characterized by solid-state nuclear magnetic resonance, thermal analyses, and infrared spectroscopy. The results reveal the amorphous character of the structure and the presence of at least four types of binding modes between the metal oxide clusters and benzene tricarboxylic acid. On the other hand, thermogravimetric analysis (TGA) showed high thermal stability, with the material decomposing at temperatures higher than 500 °C. The combination of intense Eu3+ luminescence with large thermal stability makes this material a strong candidate for application as a luminescent red marker for gunshot residue (GSR). As proof of concept, we show the feasibility of this application by performing shooting tests using our compound as a GSR marker. After the shots, the residual luminescent particles could be visualized in the triggered cartridge, inner the muzzle of the firearm, and a lower amount on the hands of the shooter, using a UV lamp (λ = 254 nm). Remarkably, our results also show that the Eu3+ emission for the GSR is very similar to that observed for the original solid material. These characteristics are of huge importance since they provide a chance to use smaller amounts of the marker in the ammunition, lowering the costs of potential industrial manufacturing processes.
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