磷树枝状聚合物对硅基和铝基材料的功能化及其特性

Anne-Marie Caminade
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引用次数: 0

摘要

本文综述了聚磷酰腙(PPH)型树枝状聚合物(每个分支点都有一个磷原子)与不同类型硅基和铝基材料的相互作用。这些树枝状聚合物可通过共价固定或静电作用,在纳米尺度上对固体表面进行功能化,特别是通过逐层沉积(LbL)的方式构建完美可控的多层膜。本文介绍了这类混合材料作为化学传感器、非常灵敏的生物传感器以及细胞生长基底的特性。PPH 树枝状分子还可以嵌入材料内部。由此产生的混合材料已被用于捕获污染物,特别是空气中的二氧化碳以及废水中的铬酸盐和亚甲基蓝。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Functionalization of Si‐ and Al‐based materials with phosphorus dendrimers and their properties
The interactions of dendrimers having a phosphorus atom at each branching point, of type poly(phosphorhydrazone) (PPH), with different types of materials based on silicon and aluminum are reviewed. These dendrimers can be used for the functionalization of solid surfaces at the nanoscale, either by covalent immobilization, or by electrostatic interactions, especially for constructing perfectly controlled multi‐layers by layer‐by‐layer (LbL) deposit. The properties of such hybrid materials as chemical sensors, as very sensitive biological sensors, as well as substrates for the growing of cells are described. The PPH dendrimers can also be embedded inside materials. The resulting hybrid materials have been used for the capture of pollutants, in particular CO2 in air and chromate and methylene blue in waste water.
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