Analysis of Structural Changes of pH-Thermo-Responsive Nanoparticles in Polymeric Hydrogels.

IF 5 3区 化学 Q1 POLYMER SCIENCE Gels Pub Date : 2024-08-20 DOI:10.3390/gels10080541
Lazaro Ruiz-Virgen, Miguel Angel Hernandez-Martinez, Gabriela Martínez-Mejía, Rubén Caro-Briones, Enrique Herbert-Pucheta, José Manuel Del Río, Mónica Corea
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Abstract

The pH- and thermo-responsive behavior of polymeric hydrogels MC-co-MA have been studied in detail using dynamic light scattering DLS, scanning electron microscopy SEM, nuclear magnetic resonance (1H NMR) and rheology to evaluate the conformational changes, swelling-shrinkage, stability, the ability to flow and the diffusion process of nanoparticles at several temperatures. Furthermore, polymeric systems functionalized with acrylic acid MC and acrylamide MA were subjected to a titration process with a calcium chloride CaCl2 solution to analyze its effect on the average particle diameter Dz, polymer structure and the intra- and intermolecular interactions in order to provide a responsive polymer network that can be used as a possible nanocarrier for drug delivery with several benefits. The results confirmed that the structural changes in the sensitive hydrogels are highly dependent on the corresponding critical solution temperature CST of the carboxylic (-COOH) and amide (-CONH2) functional groups and the influence of calcium ions Ca2+ on the formation or breaking of hydrogen bonds, as well as the decrease in electrostatic repulsions generated between the polymer chains contributing to a particle agglomeration phenomenon. The temperature leads to a re-arrangement of the polymer chains, affecting the viscoelastic properties of the hydrogels. In addition, the diffusion coefficients D of nanoparticles were evaluated, showing a closeness among with the morphology, shape, size and temperature, resulting in slower diffusions for larger particles size and, conversely, the diffusion in the medium increasing as the polymer size is reduced. Therefore, the hydrogels exhibited a remarkable response to pH and temperature variations in the environment. During this research, the functionality and behavior of the polymeric nanoparticles were observed under different analysis conditions, which revealed notable structural changes and further demonstrated the nanoparticles promising high potential for drug delivery applications. Hence, these results have sparked significant interest in various scientific, industrial and technological fields.

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分析聚合物水凝胶中具有 pH 热响应性的纳米粒子的结构变化。
利用动态光散射 DLS、扫描电子显微镜 SEM、核磁共振 (1H NMR) 和流变学详细研究了聚合物水凝胶 MC-co-MA 的 pH 和热响应行为,以评估纳米粒子在不同温度下的构象变化、溶胀收缩、稳定性、流动能力和扩散过程。此外,还用氯化钙 CaCl2 溶液对丙烯酸 MC 和丙烯酰胺 MA 功能化聚合物体系进行了滴定处理,以分析其对平均颗粒直径 Dz、聚合物结构以及分子内和分子间相互作用的影响,从而提供一种可用作纳米载体的响应性聚合物网络,用于药物输送并带来多种益处。研究结果证实,敏感水凝胶的结构变化高度依赖于羧酸(-COOH)和酰胺(-CONH2)官能团的相应临界溶液温度 CST、钙离子 Ca2+ 对氢键形成或断裂的影响,以及聚合物链之间产生的静电排斥力的降低,这些因素都会导致微粒团聚现象。温度会导致聚合物链重新排列,从而影响水凝胶的粘弹性能。此外,还对纳米颗粒的扩散系数 D 进行了评估,结果表明其与形态、形状、大小和温度的关系密切,颗粒越大,扩散速度越慢,反之,随着聚合物尺寸的减小,在介质中的扩散速度也会增加。因此,水凝胶对环境中的酸碱度和温度变化有显著的反应。在这项研究中,我们观察了聚合物纳米粒子在不同分析条件下的功能和行为,发现了显著的结构变化,进一步证明了纳米粒子在药物输送应用方面的巨大潜力。因此,这些成果引发了科学、工业和技术领域的极大兴趣。
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来源期刊
Gels
Gels POLYMER SCIENCE-
CiteScore
4.70
自引率
19.60%
发文量
707
审稿时长
11 weeks
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