Development of Nanomaterials as Photo Catalysts for Environmental Applications

A. Abu‐Dief, Wael Sabry Mohamed
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引用次数: 9

Abstract

Lack of environmental sustainability is a growing and pivotal matter due to the issues such as disturbances associated with biodiversity pollution and climate change. Pollutants are the major cause of these environmental threats in the atmosphere. At present, nano-based photocatalysts are at the forefront of the author's interest because of their promising potential as a green chemical-based compound, high catalytic activity, suitable and controllable surface area for wastewater treatment. Semiconductor materials on a nano-sized scale have electronic and optical properties depending on their building block size, which plays a vital role in developing smart materials that are well-efficient for simultaneously destroying harmful chemical contaminants from our environment. This makes these materials useful in many possible industrial applications, such as water purification. In this review, we have reported the most significant results contributing to the progress in the area of environmental hazardous pollutant detection and removal focused on water purification especially through photocatalysis to give readers an overview of the present research trends. Moreover, we have analyzed previous studies to indicate key principles of photocatalysis and provide guidelines that can be used to fabricate more efficient photocatalysts.
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纳米材料环境光催化剂的研究进展
由于与生物多样性污染和气候变化相关的干扰等问题,缺乏环境可持续性是一个日益严重和关键的问题。污染物是大气中这些环境威胁的主要原因。目前,纳米光催化剂因其作为一种绿色化学基化合物、高催化活性、适合和可控制的表面积用于废水处理而成为作者感兴趣的前沿。纳米级的半导体材料具有电子和光学特性,这取决于它们的构建块尺寸,这在开发智能材料方面起着至关重要的作用,这些智能材料可以同时有效地破坏我们环境中的有害化学污染物。这使得这些材料在许多可能的工业应用中都很有用,比如水净化。在这篇综述中,我们报道了在环境有害污染物的检测和去除领域取得进展的最重要的结果,重点是水净化,特别是通过光催化,让读者对当前的研究趋势有一个概述。此外,我们还分析了以往的研究,指出了光催化的关键原理,并提供了可用于制造更高效的光催化剂的指导方针。
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