有机烷氧基硅烷的合成:多功能有机-无机构件

Compounds Pub Date : 2023-03-16 DOI:10.3390/compounds3010021
Carina I. C. Crucho
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引用次数: 2

摘要

有机-无机建筑材料是一类重要的杂化材料,由于有机化合物的协同多功能性与无机材料的坚固性。目前,人们对改性二氧化硅网络的物理和化学性质的二氧化硅杂化材料的兴趣日益浓厚,导致对有机烷氧基硅烷的兴趣日益增加。R-[Si-(OR ')3]n的通式,其中OR '为可水解的烷氧基,R为有机官能团(n≥1),导致了许多分子的前体。通过引入足够的有机基团(R),有机烷氧基硅烷可以有效地利用智能响应单元、偶联剂、靶向基团、生物活性基团等对硅基材料进行表面和基体改性,开辟了有前景的应用领域,特别是生物医学领域。已经建立了几种合成方法来引入烷氧基硅烷部分,包括硅氢化反应、偶联反应和异氰酸酯加成反应。在此,我们回顾了有机烷氧基硅烷的合成路线以及结构特征之间的关系,以设计适合特定应用的有机烷氧基硅烷。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis of Organoalkoxysilanes: Versatile Organic–Inorganic Building Blocks
Organic–inorganic building blocks are an important class of hybrid materials due to the synergistic versatility of organic compounds with the robust properties of inorganic materials. Currently, the growing interest in silica hybrid materials to modify the physical and chemical properties of the silica network has led to an increasing interest in organoalkoxysilanes. A general formula of R-[Si-(OR’)3]n, with OR’ as a hydrolysable alkoxy group and R acting as the organic functional group (n ≥ 1), has led to precursors for many molecules. By introducing adequate organic moieties (R), organoalkoxysilanes effectively engage in surface and matrix modification of silica-based materials with smart-responsive units, coupling agents, targeting moieties, bioactive moieties etc., opening promising applications, specifically biomedical ones. Several synthetic procedures have been established to introduce the alkoxysilane moieties, including hydrosilylation, coupling reactions, and addition reactions to isocyanates. Herein, we review synthetic routes to organoalkoxysilanes and the relationship between structural features to design appropriate organoalkoxysilanes for specific applications.
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CiteScore
2.30
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