可见光驱动的 MoO3@TiO2 核壳光催化剂降解罗丹明 B。

IF 3.7 2区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Langmuir Pub Date : 2024-11-12 Epub Date: 2024-11-04 DOI:10.1021/acs.langmuir.4c03333
Hejin Liu, Peng Qiao, Ying Liu, Xin Guo, Yanxiu Liu, Hua Song, Xueqin Wang, Wenyi Wang
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引用次数: 0

摘要

本研究开发了一种 MoO3@TiO2 复合核壳材料,通过协同吸附和光催化降解作用去除罗丹明 B(RhB)染料。通过耦合 n 型半导体形成 n-n 异质结构,提高了光载体分离效率和光催化性能。MoO3 具有很强的吸附能力,主要用作染料吸附剂。此外,与 TiO2 形成 n-n 异质结使 MoO3 能够扩大 TiO2 的光响应范围,从而产生超氧化物(O2-)和羟基(-OH)自由基降解染料。实验结果表明,MoO3@TiO2 核壳复合材料在去除 RhB 染料方面表现优异,即使在催化剂浓度较低的情况下,吸附率和降解率也分别达到了 35.7% 和 70.3%。这种方法为开发 MoO3 核壳光催化剂提供了新的思路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Degradation of Rhodamine B by Visible Light Driven MoO<sub>3</sub>@TiO<sub>2</sub> Core-Shell Photocatalyst.

Degradation of Rhodamine B by Visible Light Driven MoO3@TiO2 Core-Shell Photocatalyst.

In this study, a MoO3@TiO2 composite core-shell material was developed to remove Rhodamine B (RhB) dye through synergistic adsorption and photocatalytic degradation. n-n heterostructures were formed by coupling n-type semiconductors to enhance the efficiency of photocarrier separation and photocatalytic performance. MoO3, which possesses strong adsorption capacity, was primarily used as a dye adsorbent. Additionally, the formation of an n-n heterojunction with TiO2 enabled MoO3 to expand the photocorresponding range of TiO2, leading to the generation of superoxide (O2) and hydroxyl (OH) free radicals for dye degradation. The experimental results demonstrate that the MoO3@TiO2 core-shell composite exhibits excellent performance for RhB dye removal, with adsorption and degradation rates reaching 35.7 and 70.3%, respectively, even at low catalyst concentrations. This approach offers new insights into the development of MoO3 core-shell photocatalysts.

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来源期刊
Langmuir
Langmuir 化学-材料科学:综合
CiteScore
6.50
自引率
10.30%
发文量
1464
审稿时长
2.1 months
期刊介绍: Langmuir is an interdisciplinary journal publishing articles in the following subject categories: Colloids: surfactants and self-assembly, dispersions, emulsions, foams Interfaces: adsorption, reactions, films, forces Biological Interfaces: biocolloids, biomolecular and biomimetic materials Materials: nano- and mesostructured materials, polymers, gels, liquid crystals Electrochemistry: interfacial charge transfer, charge transport, electrocatalysis, electrokinetic phenomena, bioelectrochemistry Devices and Applications: sensors, fluidics, patterning, catalysis, photonic crystals However, when high-impact, original work is submitted that does not fit within the above categories, decisions to accept or decline such papers will be based on one criteria: What Would Irving Do? Langmuir ranks #2 in citations out of 136 journals in the category of Physical Chemistry with 113,157 total citations. The journal received an Impact Factor of 4.384*. This journal is also indexed in the categories of Materials Science (ranked #1) and Multidisciplinary Chemistry (ranked #5).
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