Enhanced luminescence and stability of TFMDSA nanoparticles via polymer-induced aggregation for bioimaging.

Journal of materials chemistry. B Pub Date : 2024-11-14 DOI:10.1039/d4tb01825g

Xiang Li, Xue Ren, Yuchao Luo, Haotian Shi, Zhigang Xie, Bin Xu, Wenjing Tian

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Abstract

In recent years, fluorescence imaging has occupied a very important position in the life science and biomedical fields. However, achieving nanomaterials for bioimaging with both high fluorescence quantum efficiency and high stability remains a significant challenge. Herein, we synthesized mPEG_5K-PCL_10K@TFMDSA and mPEG_5K-PLLA_10K@TFMDSA nanoparticles using polymer-induced aggregation. This method significantly enhanced the luminescence efficiency of TFMDSA nanoparticles in solution, attributed to improved intermolecular interactions and restricted molecular vibrations. The resulting nanoparticles exhibited exceptional optical stability over a period of seven days and demonstrated low cytotoxicity towards HeLa cells, making them highly suitable for bioimaging applications. Cellular uptake studies indicated that these nanoparticles were more efficiently internalized by HeLa cells compared to their amorphous counterparts, likely due to their unique square morphology. Our findings highlight the potential of polymer-induced aggregation in enhancing the optical properties and stability of TFMDSA nanomaterials, suggesting their promise as biofluorescent probes for cancer diagnosis and other biomedical applications.

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通过聚合物诱导聚集增强 TFMDSA 纳米粒子的发光和稳定性，用于生物成像。

近年来，荧光成像在生命科学和生物医学领域占据了非常重要的地位。然而，实现高荧光量子效率和高稳定性的生物成像纳米材料仍然是一项重大挑战。在此，我们利用聚合物诱导聚集法合成了 mPEG5K-PCL10K@TFMDSA 和 mPEG5K-PLLA10K@TFMDSA 纳米颗粒。这种方法大大提高了 TFMDSA 纳米粒子在溶液中的发光效率，这归功于分子间相互作用的改善和分子振动的限制。由此产生的纳米粒子在七天内表现出优异的光学稳定性，对 HeLa 细胞的细胞毒性很低，因此非常适合生物成像应用。细胞摄取研究表明，与无定形颗粒相比，这些纳米颗粒能更有效地被 HeLa 细胞内化，这可能是由于它们独特的方形形态。我们的研究结果凸显了聚合物诱导聚集在增强 TFMDSA 纳米材料的光学特性和稳定性方面的潜力，表明它们有望成为癌症诊断和其他生物医学应用的生物荧光探针。

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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来源期刊

Journal of materials chemistry. B 化学科学, 工程与材料, 生命科学, 分析化学, 高分子组装与超分子结构, 高分子科学, 免疫生物学, 免疫学, 生化分析及生物传感, 组织工程学, 生物力学与组织工程学, 资源循环科学, 冶金与矿业, 生物医用高分子材料, 有机高分子材料, 金属材料的制备科学与跨学科应用基础, 金属材料, 样品前处理方法与技术, 有机分子功能材料化学, 有机化学

CiteScore

12.00

自引率

0.00%

发文量

审稿时长

1 months