废水处理用新型可降解光催化剂

Мariya S. Stepukhovich, A. M. Abramova, A. A. Bakal, I. Goryacheva
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引用次数: 0

摘要

减少对环境的人为负荷已成为人类的全球目标。污水中有毒物质的积累会加速地球流域的污染,造成生物群污染。为了解决这个问题,有必要制造出在光的点燃下引起自激的光催化剂。光催化剂的重要参数是合成简单、成本低。本文介绍了一种一步合成具有光催化活性的碳纳米结构(CNS)的方法。为此,使用了“绿色化学”方法-水热处理各种多糖(葡聚糖硫酸钠(SDS),淀粉,果胶),这开辟了回收产品的可能性。对合成的中枢神经系统的性能进行了全面的研究。为了研究CNS的光学性质,利用了吸收光谱和发光光谱以及红外光谱。所制备的CNS已成功地应用于光催化破坏有机染料酒黄石模型的过程中,酒黄石在纤维和纺织工业中有着广泛的应用。研究了冻干对СNS光催化性能的影响,并对其细胞毒性进行了评价。
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Novel degradable photocatalysts for wastewater treatment
The weakening of the manmade load on the environment has become a global goal of humanity. The accumulation of toxic substances in effluents can increase the acceleration of pollution of the planet’s watersheds, resulting in biota pollution. To solve this problem, it is necessary to create photocatalysts that cause self-excitation under the ignition of light. Also, important parameters of photocatalysts are simple synthesis and low cost. This article demonstrates a one-step approach to the synthesis of carbon nanostructures (CNS) with photocatalytic activity. For this purpose, the “green chemistry ” method is used – hydrothermal treatment of various polysaccharides (sodium dextran sulfate (SDS), starch, pectin), which opens up the possibility of recycling products. A comprehensive study of the properties of the synthesized CNS has been carried out. To study the optical properties of CNS, absorption and luminescence spectroscopy, and IR spectroscopy, have been used. The CNS obtained have been successfully used in the processes of photocatalytic destruction of a model of the organic dye tartrazine, which is widely used in the fiber and textile industries. The effect of lyophilization on the photocatalytic properties of СNS has been studied, and cytotoxicity has been evaluated.
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