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- 方案2D - m - BiVO网络由具有优异可见光响应的g - CN纳米片异质结构光催化剂修饰。

-scheme 2D-m-BiVO networks decorated by a g-CN nanosheet heterostructured photocatalyst with an excellent response to visible light.

作者信息

Ahmed Toheed, Ammar Muhammad, Saleem Aimen, Zhang Hong-Ling, Xu Hong-Bin

机构信息

Department of Applied Chemistry, Government College University Faisalabad 38000 Pakistan

Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences Beijing 100190 China.

出版信息

RSC Adv. 2020 Jan 20;10(6):3192-3202. doi: 10.1039/c9ra09473c. eCollection 2020 Jan 16.

DOI:10.1039/c9ra09473c
PMID:35497764
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9048574/
Abstract

For economical water splitting and degradation of toxic organic dyes, the development of inexpensive, efficient, and stable photocatalysts capable of harvesting visible light is essential. In this study, we designed a model system by grafting graphitic carbon nitride (g-CN) (g-CN) nanosheets on the surface of 2D monoclinic bismuth vanadate (m-BiVO) nanoplates by a simple hydrothermal method. This as-synthesized photocatalyst has well-dispersed g-CN nanosheets on the surface of the nanoplates of m-BiVO, thus forming a heterojunction with a high specific surface area. The degradation rate for bromophenol blue (BPB) shown by BiVO/g-CN is 96% and that for methylene blue (MB) is 98% within 1 h and 25 min, respectively. The 2D BiVO/g-CN heterostructure system also shows outstanding durability and retains up to ∼95% degradation efficiency for the MB dye even after eight consecutive cycles; the degradation efficiency for BPB does not change too much after eight consecutive cycles as well. The enhanced photocatalytic activities of BiVO/g-CN are attributed to the larger surface area, larger number of surface active sites, fast charge transfer and improved separation of photogenerated charge carriers. We proposed a mechanism for the improved photocatalytic performance of the -scheme photocatalytic system. The present work gives a good example for the development of a novel -scheme heterojunction with good stability and high photocatalytic activity for toxic organic dye degradation and water splitting applications.

摘要

为了实现经济高效的水分解和有毒有机染料的降解,开发能够吸收可见光的廉价、高效且稳定的光催化剂至关重要。在本研究中,我们通过简单的水热法将石墨相氮化碳(g-CN)纳米片接枝到二维单斜钒酸铋(m-BiVO)纳米片表面,设计了一个模型体系。这种合成的光催化剂在m-BiVO纳米片表面具有分散良好的g-CN纳米片,从而形成了具有高比表面积的异质结。BiVO/g-CN对溴酚蓝(BPB)的降解率在1小时内为96%,对亚甲基蓝(MB)的降解率在25分钟内为98%。二维BiVO/g-CN异质结构体系还表现出出色的耐久性,即使经过连续八次循环,对MB染料的降解效率仍保持在约95%;对BPB的降解效率在连续八次循环后也没有太大变化。BiVO/g-CN光催化活性的增强归因于更大的表面积、更多的表面活性位点、快速的电荷转移以及光生电荷载流子分离的改善。我们提出了一种关于该Z型光催化体系光催化性能提升的机制。本工作为开发一种新型的具有良好稳定性和高光催化活性的Z型异质结用于有毒有机染料降解和水分解应用提供了一个很好的范例。

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