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核壳型磁性介孔硅纳米球的合成、表面修饰及应用的最新进展。

Recent Advances in the Synthesis, Surface Modifications and Applications of Core-Shell Magnetic Mesoporous Silica Nanospheres.

机构信息

College of Science, University of Shanghai for Science and Technology, No. 334 Jungong Road, Shanghai, 200093, P.R. China.

出版信息

Chem Asian J. 2020 Apr 17;15(8):1248-1265. doi: 10.1002/asia.202000045. Epub 2020 Mar 18.

Abstract

The hierarchically structured core-shell magnetic mesoporous silica nanospheres (Mag-MSNs) have attracted extensive attention, particularly in studies involving reliable preparations and diverse applications of the multifunctional nanomaterials in multi-disciplinary fields. Intriguingly, Mag-MSNs have been prepared with well-designed synthesis strategies and used as adsorbent materials, biomedicines, and in proteomics and catalysis due to their excellent magnetic responsiveness, enormous specific surface area and readiness for surface modifications. Through a carefully designed surface modification of Mag-MSNs, the performance and application prospects of the material are greatly improved. Typically, the introduction of various molecular matrices into the shell of Mag-MSNs facilitates the combination of surface modifications and magnetic separation technology. So far, as sustainable chemistry is concerned, it is important to recover the functionalized core-shell Mag-MSNs after the reaction and reuse them without losing activity. In this review, the design conceptions and the construction of core-shell Mag-MSNs are discussed. Furthermore, various surface modification approaches of core-shell Mag-MSNs are summarized, and recent applications of these functionalized nanomaterials in the fields of biomedicine, catalysis, proteomics and wastewater treatment are exemplified.

摘要

具有层次结构的核壳型磁性介孔硅纳米球(Mag-MSNs)引起了广泛关注,特别是在多学科领域中对多功能纳米材料的可靠制备和多样化应用的研究中。有趣的是,由于 Mag-MSNs 具有优异的磁响应性、巨大的比表面积和易于进行表面修饰的特点,因此已经采用精心设计的合成策略来制备,并将其用作吸附材料、生物医学材料,以及在蛋白质组学和催化领域中应用。通过对 Mag-MSNs 进行精心设计的表面修饰,可以大大提高材料的性能和应用前景。通常,将各种分子基质引入到 Mag-MSNs 的壳层中,有利于表面修饰和磁分离技术的结合。迄今为止,就可持续化学而言,在反应后回收功能化的核壳型 Mag-MSNs 并保持其活性而重复使用是很重要的。在这篇综述中,讨论了核壳型 Mag-MSNs 的设计理念和构建。此外,还总结了核壳型 Mag-MSNs 的各种表面修饰方法,并举例说明了这些功能化纳米材料在生物医学、催化、蛋白质组学和废水处理等领域的最新应用。

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