Visible Light Assisted Photocatalytic Degradation of Chromium (VI) by Using Nanoporous Fe2O3

Journal of Materials Pub Date : 2018-09-02 DOI:10.1155/2018/1593947

Abhilash Mavinakere Ramesh, S. Shivanna

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引用次数: 21

Abstract

A Fe2O3 nanoporous structure was prepared by using hydrothermal route; its physicochemical properties were effectively characterized using XRF, BET, FT-IR, VSM, SEM and EDX, DLS, XRD, and PL techniques. The surface area of the magnetic nanoporous structure Fe2O3 was higher than the normally synthesized Fe2O3 nanoparticle. The outcome of the photocatalytic removal of the chromium (VI) below the visible light irradiation confirmed that 82.11% of Cr(VI) was degraded by the Fe2O3 nanomaterials at 120 min of irradiation time. The improved photocatalytic activity of the nanoparticle was ascribed to efficient electron-hole separation. Fe2O3 was set up to be a tough and constant photocatalyst throughout recycling experiments. The conceivable mechanism for the electron-hole separation process on the heterojunction was probable. The synthesized samples own low band gap energy and a hollow structure appropriate for the improved photocatalytic activity. The toxicity of the samples was measured by using Mus musculus skin melanoma cells (B16-F10 (ATCC®, CRL-6475TM) which are set up to be safe for human cells; as a result, this systematic approach provides a better alternative upconversion material for integral photoabsorption.

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纳米多孔Fe2O3在可见光辅助下光催化降解铬(VI)的研究

采用水热法制备了Fe2O3纳米多孔结构;利用XRF、BET、FT-IR、VSM、SEM和EDX、DLS、XRD和PL等技术对其理化性质进行了有效表征。磁性纳米孔结构Fe2O3的比表面积高于正常合成的Fe2O3纳米颗粒。在可见光照射下光催化去除铬(VI)的结果证实，在120min的照射下，Fe2O3纳米材料对Cr(VI)的降解率为82.11%。纳米粒子的光催化活性的提高归因于有效的电子-空穴分离。通过循环利用实验，确定了Fe2O3是一种强韧、稳定的光催化剂。异质结上电子-空穴分离过程的可能机制。所合成的样品具有较低的带隙能和适合于提高光催化活性的中空结构。使用小鼠皮肤黑色素瘤细胞(B16-F10 (ATCC®，CRL-6475TM)检测样品的毒性，该细胞对人体细胞是安全的;因此，这种系统的方法为积分光吸收提供了一种更好的替代上转换材料。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Materials

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