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首页> 外文期刊>Science of the total environment >Preparation of DNA-adsorbed TiO_2 particles - Augmentation of performance for environmental purification by increasing DNA adsorption by external pH regulation
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Preparation of DNA-adsorbed TiO_2 particles - Augmentation of performance for environmental purification by increasing DNA adsorption by external pH regulation

机译:DNA吸附的TiO_2颗粒的制备-通过外部pH调节增加DNA吸附,从而增强环境净化性能

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摘要

We have previously developed a novel photocatalyst, DNA-attached titanium dioxide (DNA-TiO_2), useful for the recovery and decomposition of chemicals [Suzuki et al. Environ. Sci. Technol. 42, 8076, 2008], Chemicals accumulated in DNA near the surface of TiO_2 and were degraded under UV light. The efficiency of their removal was dependent on the amount of DNA adsorbed on TiO_2, indicating the attachment of larger amounts of DNA to result in higher efficiency. In this study, we succeeded in improving the performance of DNA-TiO_2 by increasing the amount of DNA adsorbed by regulating the external pH. The adsorption of DNA by TiO_2 dramatically increased at pH2. to about fourfold that at other pH values (pH4-10). Repeating the process of DNA addition increased the adsorption further. The attached DNA was stable on the surface of TiO_2 at pH2-10 and 4-56 ℃, the same as DNA-TiO_2 prepared at pH7. As the DNA-TiO_2 prepared at pH2 retained much DNA on its surface, chemicals (methylene blue, ethidium bromide, etc.) which could intercalate or react with DNA were effectively removed from solutions. The photocatalytic degradation was slow at first, but the final degradation rate was higher than for non-adsorbed TiO_2 and DNA-TiO_2 prepared at pH7. These results indicated that preparation of DNA-TiO_2 at pH2 has advantages in that much DNA can be attached and large amounts of chemicals can be concentrated in the DNA, resulting in extensive decomposition under UV light.
机译:我们以前已经开发了一种新型的光催化剂,即附有DNA的二氧化钛(DNA-TiO_2),可用于化学物的回收和分解[Suzuki等。环境。科学技术。 42,8076,2008],化学物质累积在TiO_2表面附近的DNA中,并在紫外光下降解。去除它们的效率取决于吸附在TiO_2上的DNA的量,这表明附着了大量的DNA会导致更高的效率。在这项研究中,我们通过调节外部pH值增加了DNA的吸附量,从而成功提高了DNA-TiO_2的性能。 TiO_2在pH2下对DNA的吸附急剧增加。约为其他pH值(pH4-10)的四倍。重复添加DNA的过程进一步增加了吸附。在pH2-10和4-56℃时,附着的DNA在TiO_2表面稳定,与pH7制备的DNA-TiO_2相同。由于在pH2下制备的DNA-TiO_2在其表面上保留了许多DNA,因此可以从溶液中有效去除可能嵌入DNA或与DNA反应的化学物质(亚甲基蓝,溴化乙锭等)。起初光催化降解较慢,但最终降解速率高于在pH7下制备的未吸附TiO_2和DNA-TiO_2。这些结果表明,在pH2下制备DNA-TiO_2的优点在于,可以附着大量DNA,并且可以将大量化学物质浓缩在DNA中,从而在紫外光下导致大量分解。

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  • 来源
    《Science of the total environment》 |2010年第3期|480-485|共6页
  • 作者

    Takeharu Amano; Tatsushi Toyooka; Yuko Ibuki;

  • 作者单位

    Laboratory of Radiation Biology, Institute for Environmental Sciences, Graduate School of Nutritional and Environmental Sciences, University of Shizuoka, 52-1 Yada, Shizuoka-shi 422-8526, Japan;

    Laboratory of Radiation Biology, Institute for Environmental Sciences, Graduate School of Nutritional and Environmental Sciences, University of Shizuoka, 52-1 Yada, Shizuoka-shi 422-8526, Japan;

    Laboratory of Radiation Biology, Institute for Environmental Sciences, Graduate School of Nutritional and Environmental Sciences, University of Shizuoka, 52-1 Yada, Shizuoka-shi 422-8526, Japan;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    TiO_2; DNA; adsorption; photocatalytic degradation;

    机译:TiO_2;脱氧核糖核酸;吸附光催化降解;
  • 入库时间 2022-08-17 13:56:00

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