Emerging advancements in xerogel polymeric bionanoarchitectures and applications

Q3 Materials Science
Christopher Igwe Idumah
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引用次数: 14

Abstract

Xerogels (X-G) are biopolymeric and zero chemical materials, applied in regenerative medicine and tissue engineering because of inherently elevated biocompatibility, nil-immunogenicity, as well as zero-cytotoxicity. X-G are porous, functional and advanced materials composed of dried, cross-linked and ambient polymeric structures possessing very elevated porosity, broad surface area, as we as inexpensive fabrication pathway capable of being garnered from varying organic and inorganic initiators for multifunctional applications. Due to their inherently desirous properties, X-G are appropriate for numerous medical as well as biomedical uses. Relative to their elevated drug delivery capacity, X-G ability of maintaining sustainable drug releasing present them highly suitable for drug conveying applications. Biopolymeric materials exhibit capability of interacting, cross-linking, and/or trapping severally inclined active entities, like antibiotics or naturally occurring antimicrobial substrates, which are critically essential for wound dressing as well as other mending applications. Hence, X-G are capable of being utilized in antibodies trapping, enzymes, as well as cells for biosensor and monitoring gadgets. Therefore, this paper presents recently emerging trends in X-G polymeric bionanoarchitectures encompassing biopolymeric X-G introduction, strategies of construction, as well as their properties. Herein, biological attributes sustaining their suitability for versatile biomedical uses especially biosensing, tissue scaffolding, drug conveying, wound mending and dressing are comprehensively elucidated.

Abstract Image

静电凝胶聚合物生物纳米结构及其应用的新进展
干凝胶(Xerogels, X-G)是一种生物聚合物和零化学材料,由于其固有的高生物相容性、零免疫原性和零细胞毒性,被应用于再生医学和组织工程。X-G是一种多孔、功能和先进的材料,由干燥、交联和环境聚合物结构组成,具有非常高的孔隙率,宽的表面积,因为我们有廉价的制造途径,能够从各种有机和无机引发剂中获得多功能应用。由于其固有的理想特性,X-G适用于许多医学和生物医学用途。相对于其较高的药物输送能力,X-G维持持续药物释放的能力使其非常适合药物输送应用。生物聚合物材料表现出相互作用、交联和/或捕获几种倾斜活性实体的能力,如抗生素或天然存在的抗菌底物,这对于伤口敷料以及其他修复应用至关重要。因此,X-G能够用于抗体捕获,酶,以及用于生物传感器和监测设备的细胞。因此,本文介绍了X-G聚合物生物纳米结构的最新趋势,包括生物聚合物X-G的引入,构建策略以及它们的性质。在此,全面阐明了维持其适用于多种生物医学用途的生物学特性,特别是生物传感、组织支架、药物输送、伤口修复和敷料。
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
JCIS open
JCIS open Physical and Theoretical Chemistry, Colloid and Surface Chemistry, Surfaces, Coatings and Films
CiteScore
4.10
自引率
0.00%
发文量
0
审稿时长
36 days
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