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调控氧化锌光催化剂:碳和铈共掺杂——水热法与微波合成法的对比研究

Tuning ZnO photocatalysts C and Ce Co-doping: a comparative approach using hydrothermal and microwave synthesis.

作者信息

Ha Luu Thi Viet, Nguyen Thi Lieu, Hien Bach Thi My, Dung Nguyen Trung, Huy Nguyen Nhat, Dang Huu Phuc

机构信息

Faculty of Chemical Engineering, Industrial University of Ho Chi Minh City 12 Nguyen Van Bao, Hanh Thong Ward Ho Chi Minh City 700000 Vietnam

Faculty of Physics and Chemical Engineering, Le Quy Don Technical University 236 Hoang Quoc Viet St., Nghia Do Ward Hanoi Vietnam.

出版信息

RSC Adv. 2025 Jul 25;15(32):26552-26566. doi: 10.1039/d5ra03520a. eCollection 2025 Jul 21.

DOI:10.1039/d5ra03520a
PMID:40718892
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12291161/
Abstract

In this study, C- and Ce-doped ZnO materials were synthesized by two methods: hydrothermal method (CCZ-HT) and microwave method (CCZ-MA), both using the same starting materials. The different heating stages of the methods produce distinct morphologies, doping concentrations, and some other characteristics. CCZ-HT consists of nanoellipsoids, while CCZ-MA consists of nanoflakes. The doping concentrations of cerium and carbon in CCZ-MA are higher than those in CCZ-HT. The types of crystal defects in the doped materials are different, leading to differences in their absorption and emission properties. The band gap energy of CCZ-MA is 2.85 eV, which is lower than that of CCZ-HT (2.92 eV). While CCZ-HT does not exhibit near-infrared emissions, CCZ-MA exhibits relatively strong emissions. CCZ-HT and CCZ-MA had a degradation capacity for ofloxacin (Ofx) under visible light that was 2.63 and 3.38 times superior to that of pure ZnO, respectively. The addition of Ce and C improved the band structure by slightly moving the conduction band and reducing the band gap, which allowed for better light absorption in the visible range and helped separate charge carriers. These enhancements immediately facilitated enhanced photocatalytic efficacy in the breakdown of ofloxacin. The CCZ-MA material exhibited superior photocatalytic activity due to its advantageous shape, increased surface area, and enhanced charge trapping capability associated with flaws. The functions of photo oxidized fragments and reaction intermediates were also examined. This study postulated a photodegradation mechanism for Ofx.

摘要

在本研究中,采用两种方法合成了碳和铈共掺杂的氧化锌材料:水热法(CCZ-HT)和微波法(CCZ-MA),两种方法使用相同的起始原料。这两种方法不同的加热阶段产生了不同的形貌、掺杂浓度和其他一些特性。CCZ-HT由纳米椭球体组成,而CCZ-MA由纳米薄片组成。CCZ-MA中铈和碳的掺杂浓度高于CCZ-HT。掺杂材料中的晶体缺陷类型不同,导致其吸收和发射特性存在差异。CCZ-MA的带隙能量为2.85 eV,低于CCZ-HT的带隙能量(2.92 eV)。虽然CCZ-HT不表现出近红外发射,但CCZ-MA表现出相对较强的发射。CCZ-HT和CCZ-MA在可见光下对氧氟沙星(Ofx)的降解能力分别是纯氧化锌的2.63倍和3.38倍。铈和碳的加入通过轻微移动导带和减小带隙改善了能带结构,这使得在可见光范围内有更好的光吸收,并有助于分离电荷载流子。这些增强立即促进了氧氟沙星分解中光催化效率的提高。CCZ-MA材料由于其有利的形状、增加的表面积以及与缺陷相关的增强的电荷俘获能力而表现出优异的光催化活性。还研究了光氧化碎片和反应中间体的作用。本研究提出了氧氟沙星的光降解机理。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7a16/12291161/3d6cc3e5c914/d5ra03520a-f8.jpg
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