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杂氮硅三环由于具有高的生物活性而受到人们的重视,作者们曾报道了一系列杂氮硅三环的合成方法,化学结构及生物活性。最近有文献报道1-芳氧基杂氮硅三环有强的抗菌作用。我们将这类硅三环为研究对象,通过在三环骨架上引入甲基来探讨环骨架的改变对硅氮配键及生物活性的影响。1-芳氧基杂氮硅三环的合成前人曾作过简单地报道,但有关不同环骨架的1-芳氧基杂氮硅三环的报告目前还未见到。在我们最初改变环骨架的尝试中只得到了高聚物,这是
Aza-tricyclo tris ring due to its high biological activity by people’s attention, the authors have reported a series of synthesis of nitrogen-tricyclic ring, chemical structure and biological activity. Recently, it has been reported in the literature that 1-aryloxyheterosilane has strong antibacterial activity. We will this silicon tricyclic ring as the research object, through the introduction of methyl in the tricyclic skeleton to explore the change of the ring skeleton of silicon nitrogen bond and biological activity. The synthesis of 1-aryloxyheterosilane has been previously reported briefly, but the reports of 1-aryloxyheterosilane of different ring skeletons have not yet been reported. Only got the polymer in our initial attempt to change the ring skeleton, which is