聚(N-异丙基丙烯酰胺)-聚(2-乙基-2-噁唑啉)的制备及其与二羧酸的自组装特性

Perihan YİLMAZ ERDOGAN, F. Bilge Emre, T. Seçkin
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引用次数: 0

摘要

本研究报告了含有热响应聚合物(即聚(N-异丙基丙烯酰胺)(PNIPAM)和聚(2-乙基-2-噁唑啉)(PEOX))以及可生物降解的侧基(可溶于水并能形成氢键)的共聚物的合成。该试验旨在生产热响应 PNIPAM 和 PEOX 聚合物,通过二羧酸(DCA)控制所产生的 pH 敏感纳米结构聚合物的结构。这些聚合物将用作合成无机材料的模板。研究证明了 pH 值、盐浓度和温度对聚合物/DCA 的影响。本片段介绍了热敏聚合物 PNIPAM 和 PEOX 的官能团。这些聚合物的两端都有羧酸官能团,可溶于水,并能形成氢键。在不同的 pH 值、盐浓度和温度下,这些聚合物的结构可与水溶液中的小分子二氯苯甲醚通过氢键识别。此外,这些聚合物还可用作合成空心二氧化硅聚合物的模板。利用傅立叶变换红外光谱仪(FT-IR)对合成的单体和聚合物进行了结构表征。扫描电子显微镜和原子力显微镜(SEM、AFM)对合成的结构聚合物进行了鉴定。紫外-可见分光光度计和差示扫描量热仪(DSC)用于测定聚合物的下临界溶液温度。
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Preparation of Poly (N-Isopropylacrylamide) -Poly (2-Ethyl-2-Oxazoline) and Their Self-Assembly Properties with Dicarboxylic Acid
This study reports the synthesis of copolymers that contain thermally responsive polymers, namely poly(N-isopropylacrylamide) (PNIPAM) and poly(2-ethyl-2-oxazoline) (PEOX), as well as biodegradable side groups that are water-soluble and capable of hydrogen bonding. The assay aims to produce heat-responsive PNIPAM and PEOX polymers with di-carboxylic acid (DCA) controlled structuring of the resulting pH-sensitive nano-structured polymers. These will be used as a template in the synthesis of inorganic materials. The study demonstrated the impact of pH, salt concentration, and temperature on the polymer/DCA. This fragment describes the functional groups of the thermosensitive polymers PNIPAM and PEOX. These polymers have carboxylic acid functional groups at both ends, are water soluble, and are capable of hydrogen bonding. The structure of these polymers can be recognized with small molecules of DCA in an aqueous solution at different pH, salt concentrations, and temperatures with H-bonds. Additionally, these polymers can be used as templates to synthesize hollow silica polymers. The synthesized monomers and polymers were structurally characterized using Fourier transform infrared spectrophotometer (FT-IR). The resulting structured polymers were identified by scanning electron microscopy and atomic force microscopy (SEM, AFM). UV-VIS spectrophotometer and Differential Scanning Calorimetry (DSC) were used to determine the Lower Critical Solution temperature of the polymers.
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