The impact of cross-linker distribution on magnetic nanogels: encapsulation, transport and controlled release of the tracer†

IF 2.9 3区化学 Q3 CHEMISTRY, PHYSICAL Soft Matter Pub Date : 2024-10-17 DOI:10.1039/D4SM00797B

Ivan S. Novikau, Ekaterina V. Novak and Sofia S. Kantorovich

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Abstract

Magnetic nanogels (MNGs) are highly attractive for biomedical applications because of their potential for remote control of the rheology and internal structure of these soft colloids with biocompatible magnetic fields. In this contribution, using molecular dynamics simulations, we investigate the impact of the cross-linker distribution in the body of a MNG on the shape and magnetic response to constant and AC magnetic fields and relate those properties to the behaviour of non-magnetic tracers placed in the MNGs and left to escape. We find that if no AC magnetic field is applied, although the escape times of the tracer particles barely depend on morphology, the highest degree of subdiffusion is observed for the gels with a non-uniform cross-linkerer distribution. We also find how the eigen frequency at which particles relax locally in the polymer matrix affects the dynamic magnetic response of the gel. We show that a magnetic field-induced wobbling can facilitate drug release from gels.

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交联剂分布对磁性纳米凝胶的影响：示踪剂的封装、传输和控制释放。

磁性纳米凝胶（MNGs）具有利用生物兼容磁场远程控制这些软胶体的流变性和内部结构的潜力，因此在生物医学应用方面极具吸引力。在这篇论文中，我们利用分子动力学模拟，研究了交联剂在 MNG 主体中的分布对其形状和对恒定磁场和交流磁场的磁响应的影响，并将这些特性与放置在 MNG 中任其逸出的非磁性示踪剂的行为联系起来。我们发现，如果不施加交流磁场，虽然示踪粒子的逸出时间几乎与形态无关，但在具有非均匀交叉连线分布的凝胶中观察到的亚扩散程度最高。我们还发现了粒子在聚合物基质中局部弛豫的特征频率如何影响凝胶的动态磁响应。我们的研究表明，磁场诱导的摆动可以促进药物从凝胶中释放。

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