用于环境修复的基于石墨相氮化碳的固定化和非固定化浮动光催化剂。

Graphitic carbon nitride based immobilized and non-immobilized floating photocatalysts for environmental remediation.

作者信息

Rana Anchal, Sudhaik Anita, Raizada Pankaj, Nguyen Van-Huy, Xia Changlei, Parwaz Khan Aftab Aslam, Thakur Sourbh, Nguyen-Tri Phuong, Nguyen Chinh Chien, Kim Soo Young, Le Quyet Van, Singh Pardeep

机构信息

School of Advanced Chemical Sciences, Shoolini University, Solan, HP, 173229, India.

Jiangsu Co-Innovation Center of Efficient Processing and Utilization of Forest Resources, International Innovation Center for Forest Chemicals and Materials, College of Materials Science and Engineering, Nanjing Forestry University, Nanjing, Jiangsu, 210037, China.

出版信息

Chemosphere. 2022 Jun;297:134229. doi: 10.1016/j.chemosphere.2022.134229. Epub 2022 Mar 5.

DOI:10.1016/j.chemosphere.2022.134229

PMID:35259362

Abstract

In solar photocatalysis, light utilization and recycling of powder from reaction solution are the main obstructions that hinder the photocatalytic efficacy of any photocatalyst. In this respect, a floatable system is effective for efficient solar photocatalysis by light utilization. Due to the maximum solar light absorption property, floating nanocomposite photocatalyst is an appealing substitute for effective wastewater treatment. Floating photocatalysts are a non-oxygenated and non-stirred solution that is a good light harvester, stable, non-toxic, biodegradable, naturally abundant in nature. They also have low density, a simple preparation process, no need to stir, and high porosity. Due to these characteristics, floating photocatalysts are widely favored and ideal candidates for practical environmental remediation. Several researchers have come up with new and innovative ways for immobilizing capable photocatalyst on a floatable substrate to produce floating nanocomposite photocatalytic material. In recent decades, g-CN-based floating photocatalysts have gained a lot of attention as g-CN is a visible light active photocatalyst with unique and exceptional properties. It also has good photocatalytic activity in waste water treatment and environmental remediation. Many previous reports have studied the logical design and manufacturing method for heterojunction floating photocatalysts and immobilized floating photocatalysts. Based on those studies, we have focused on the g-CN based immobilized and non-immobilized floating photocatalysts for pollutant degradation. We have also categorized immobilized floating photocatalyst based on several lightweight substrates such as expanded perlite and glass microbead. In addition, future challenges have been discussed to maximize solar light absorption and to improve the efficiency of broadband response floating photocatalysts. Floating photocatalysis is an advanced technique in energy conversion and environmental remediation thus requires special consideration.

摘要

在太阳能光催化中，光的利用以及从反应溶液中回收粉末是阻碍任何光催化剂光催化效率的主要障碍。在这方面，可漂浮体系对于通过光利用实现高效太阳能光催化是有效的。由于具有最大的太阳光吸收特性，漂浮纳米复合光催化剂是用于有效废水处理的有吸引力的替代物。漂浮光催化剂是一种无氧气且不搅拌的溶液，是良好的光捕获剂，稳定、无毒、可生物降解，在自然界中天然丰富。它们还具有低密度、制备过程简单、无需搅拌以及高孔隙率的特点。由于这些特性，漂浮光催化剂受到广泛青睐，是实际环境修复的理想候选材料。几位研究人员提出了将有能力的光催化剂固定在可漂浮基质上以制备漂浮纳米复合光催化材料的新的创新方法。近几十年来，基于g-CN的漂浮光催化剂受到了广泛关注，因为g-CN是一种具有独特和优异性能的可见光活性光催化剂。它在废水处理和环境修复中也具有良好的光催化活性。许多先前的报道研究了异质结漂浮光催化剂和固定化漂浮光催化剂的合理设计和制造方法。基于这些研究，我们专注于基于g-CN的固定化和非固定化漂浮光催化剂用于污染物降解。我们还根据几种轻质基质（如膨胀珍珠岩和玻璃微珠）对固定化漂浮光催化剂进行了分类。此外，还讨论了未来的挑战，以最大限度地提高太阳光吸收并提高宽带响应漂浮光催化剂的效率。漂浮光催化是能量转换和环境修复中的一项先进技术，因此需要特别考虑。

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用于环境修复的基于石墨相氮化碳的固定化和非固定化浮动光催化剂。

Graphitic carbon nitride based immobilized and non-immobilized floating photocatalysts for environmental remediation.

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