Synthesis of a graft copolymer of polybutyl acrylate on fish collagen substratum using the RbTe1.5W0.5O6 complex oxide photocatalyst

L. Semenycheva, M. A. Uromicheva, V. Chasova, D. Fukina, A. Koryagin, N. Valetova, E. V. Suleimanov
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Abstract

In order to obtain a graft copolymer of polybutyl acrylate (PBA) on the substratum of emulsified fish collagen, RbTe1.5W0.5O6 complex oxide was used as a photocatalyst under visible light irradiation (λ = 400–700 nm). The emulsion was prepared by mixing the monomer and the aqueous collagen solution in a ratio of 1:2. Next, the catalyst was introduced into the resulting mixture, followed by stirring and ultrasound treatment. Before the reaction, the emulsion was bubbled with argon for 15 min. The reaction was carried out in an argon flow with continuous stirring. The radiation source was a 30 W visible light LED lamp placed at a distance of no more than 10 cm from the reaction mixture. At the end of the reaction, the emulsified organic phase was extracted with toluene, followed by phase isolation. In order to isolate the catalyst, the aqueous part of the solution was centrifuged for 30 min. Subsequently, the powder was repeatedly washed in distilled water at a temperature of 50 °C. The washed catalyst was dried, and the surface of the oxide after emulsion polymerization was examined using a scanning electron microscope. For the PBA–collagen graft copolymer emulsion isolated from the aqueous phase, molecular weight characteristics confirming the formation of a graft copolymer were obtained. It was established that the nitrogen content of amino acid residues in the PBA–collagen graft copolymer is significantly lower than in collagen, which indicates the formation of a graft copolymer. An analysis of films and sponges of PBA–collagen graft copolymer samples by scanning electron microscopy (SEM) showed a new structural-relief organization compared to collagen. A SEM analysis of the RbTe1.5W0.5O6 powder surface after the synthesis of the PBA–collagen graft copolymer detected fragments of polymer macromolecules on its surface. This can be explained by the fact that the catalyst used not only is a source of hydroxyl radicals, but сan also participate in the formation of a polymer on the powder surface due to the abstraction of a hydrogen atom from hydroxyl groups on its surface under the action of a hydroxyl radical.
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RbTe1.5W0.5O6复合氧化物光催化剂在鱼胶原基质上合成聚丙烯酸丁酯接枝共聚物
在可见光(λ = 400-700 nm)照射下,以RbTe1.5W0.5O6配合物氧化物为光催化剂,制备聚丙烯酸丁酯(PBA)接枝共聚物。将单体与胶原水溶液按1:2的比例混合制备乳液。然后,将催化剂引入所得混合物中,然后进行搅拌和超声波处理。反应前用氩气吹泡15 min,反应在氩气流中连续搅拌进行。辐射源为30 W可见光LED灯,放置在距离反应混合物不超过10 cm的地方。在反应结束时,用甲苯提取乳化有机相,然后进行相分离。为了分离催化剂,将溶液的含水部分离心30min,然后将粉末在50℃的蒸馏水中反复洗涤。将洗涤后的催化剂干燥,用扫描电子显微镜观察乳液聚合后的氧化物表面。对于从水相分离得到的pba -胶原接枝共聚物乳液,得到了证实接枝共聚物形成的分子量特征。结果表明,pba -胶原接枝共聚物中氨基酸残基的氮含量明显低于胶原,表明接枝共聚物的形成。扫描电镜(SEM)对pba -胶原接枝共聚物样品的薄膜和海绵进行了分析,发现与胶原相比,pba -胶原接枝共聚物具有新的结构缓释组织。对合成pba -胶原接枝共聚物后的RbTe1.5W0.5O6粉末表面进行SEM分析,发现其表面存在高分子大分子碎片。这可以用这样的事实来解释:所使用的催化剂不仅是羟基自由基的来源,而且由于在羟基自由基的作用下,从其表面的羟基中抽出一个氢原子,因此不免会参与粉末表面聚合物的形成。
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