Construction of BaTiO3/g-C3N4 S-type heterojunctions for photocatalytic degradation of Tetracycline

IF 4.9 2区化学 Q2 CHEMISTRY, PHYSICAL

Colloids and Surfaces A: Physicochemical and Engineering Aspects Pub Date : 2024-11-13 DOI:10.1016/j.colsurfa.2024.135761

Fengchen Zhang , Yihua Sun , Dong Zhang , Zhe Chen , Feilong Liu , Ye Yuan , Sheng Liu

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Abstract

Tetracycline, one of the antibiotics, is widely used in a number of fields, and residual Tetracycline in the environment can be a serious threat to the safety of environmental ecosystems. In this paper, a series of BaTiO₃/g-C₃N₄ composite photocatalysts were designed and synthesized by a combination of solvent volatilization and high-temperature thermal polymerization using BaTiO₃ and g-C₃N₄ as raw materials. Construction of S-type heterojunction between BaTiO₃ and g-C₃N₄ lead to the formation of built-in electric field synergistically with BaTiO₃ own ferroelectric polarization to promote the separation efficiency of photogenerated electron-hole pairs. When Tetracycline was used as the target pollutant, the degradation rate of the BTO_900,2/CN catalyst was 91.88 %, which was 142.73 times higher than the 7 % of BaTiO₃, which was a significant improvement over the photocatalytic performances of both BaTiO₃ and g-C₃N₄. This provides new ideas for studying BaTiO₃-based photocatalyst materials with high photogenerated carrier separation efficiency.

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构建用于光催化降解四环素的 BaTiO3/g-C3N4 S 型异质结

四环素是抗生素之一，被广泛应用于多个领域，环境中残留的四环素会严重威胁环境生态系统的安全。本文以 BaTiO3 和 g-C3N4 为原料，通过溶剂挥发和高温热聚合相结合的方法，设计合成了一系列 BaTiO3/g-C3N4 复合光催化剂。在 BaTiO3 和 g-C3N4 之间构建 S 型异质结，可与 BaTiO3 自身的铁电极化协同形成内置电场，提高光生电子-空穴对的分离效率。当以四环素为目标污染物时，BTO900,2/CN 催化剂的降解率为 91.88%，是 BaTiO3 7% 的 142.73 倍，比 BaTiO3 和 g-C3N4 的光催化性能都有显著提高。这为研究光生载流子分离效率高的 BaTiO3 基光催化剂材料提供了新思路。

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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来源期刊

Colloids and Surfaces A: Physicochemical and Engineering Aspects 化学-物理化学

CiteScore

8.70

自引率

9.60%

发文量

2421

审稿时长

56 days

期刊介绍： Colloids and Surfaces A: Physicochemical and Engineering Aspects is an international journal devoted to the science underlying applications of colloids and interfacial phenomena. The journal aims at publishing high quality research papers featuring new materials or new insights into the role of colloid and interface science in (for example) food, energy, minerals processing, pharmaceuticals or the environment.