用类芬顿铁氧体催化剂处理过的水的毒性

N. Danyliuk, I. Lapchuk, V. Husak
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引用次数: 1

摘要

最近,纳米粒子在水处理工艺中的应用迅速增加。然而,一项重要的任务是研究所用材料的毒性和形成的反应产物。本研究的目的是评估拟议的水处理方法对生态系统的影响。藻类是研究催化剂纳米颗粒毒性效应的极佳模式生物。本研究调查了钴铁氧体(CoFe2O4)和过氧化氢(H2O2)对微藻小球藻(Chlorella vulgaris Beij.(C. vulgaris) 的毒性。小球藻的生长速度取决于 H2O2 的残留浓度,这表明小球藻处于应激生理状态。接触烧结钴铁氧体颗粒不会影响淡水藻类的生长。当 H2O2 的残留浓度为 11.9 mM 时,藻细胞的形态、膜完整性和活力都会受到严重损害。众所周知,过氧化氢会导致氧化应激,这表现在褐藻的生长速度下降和死亡细胞数量增加。研究表明,H2O2 的高残留浓度是将处理过的水排放到自然生态系统中的主要障碍。
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Toxicity of water treated with Fenton-like ferrite catalyst
Recently, there has been a rapid growth in the use of nanoparticles in water treatment processes. However, an important task is to study the toxicity of the materials used and the reaction products formed. The purpose of this study was to evaluate the impact of the proposed water treatment method on the ecosystem. Algae are excellent model organisms for studying the toxic effects of catalyst nanoparticles. This work investigates the toxicity of cobalt ferrite (CoFe2O4) and hydrogen peroxide (H2O2) on the microalgae Chlorella vulgaris Beij. (C. vulgaris). The growth rate of C. vulgaris depends on the residual concentration of H2O2, indicating a stressful physiological state of the microalgae. Exposure to sintered cobalt ferrite granules does not affect the growth of freshwater algae. At a residual H2O2 concentration of 11.9 mM, algal cells' morphology, membrane integrity, and viability were severely impaired. Hydrogen peroxide is known to cause oxidative stress, as evidenced by a decrease in the growth rate of C. vulgaris and an increase in the number of dead cells. The study showed that the high residual concentration of H2O2 is the main obstacle to the discharge of treated water into the natural ecosystem.
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