Efficient photocatalytic activity over α-MnS/ZIF-67 p-n junction: Revealing the synergistic effects of exposed crystal facets and built-in electric field mechanism

IF 5.7 2区 材料科学 Q2 CHEMISTRY, PHYSICAL
Yanlong Yu , Yuan Tao , Sai Yan
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Abstract

In this investigation, we explored two series of composites comprising p-type α-MnS with selectively exposed {001} or {111} facets, coated with n-type ZIF-67 nanoparticles, to enhance the photocatalytic activity on Rhodamine B (RhB) degradation. The influence of the crystal facet orientation and the p-n junction on the photocatalytic efficacy was also well studied. The α-MnS/ZIF-67 composites displayed enhanced separation of charge carriers and superior light absorption capabilities, benefiting for efficient photocatalysis. The composites with cubic α-MnS morphology exhibited a pronouncedly higher photocatalytic activity relative to those with octahedral α-MnS morphology. The composition of α-MnS with ZIF-67 constructed the formation of a p-n junction with build-in electric field, extending the response into the visible region and promoting the mobility of charge carriers, thereby improving the photocatalytic performance. Our findings revealed that superoxide radicals (O2-) were the major reactive species in the photocatalytic degradation process. This study contributes novel insights into the development of high-performance and stable metal-organic framework (MOF)-based photocatalysts through the crystal facet engineering and the construction of p-n junctions.

Abstract Image

α-MnS/ZIF-67 p-n 结的高效光催化活性:揭示裸露晶面与内置电场机制的协同效应
在这项研究中,我们探索了两种系列的复合材料,它们由具有选择性暴露的{001}或{111}面的 p 型 α-MnS 组成,表面包覆有 n 型 ZIF-67 纳米粒子,以增强对罗丹明 B(RhB)降解的光催化活性。研究还深入探讨了晶面取向和 p-n 结对光催化效率的影响。α-MnS/ZIF-67复合材料显示出更强的电荷载体分离能力和卓越的光吸收能力,有利于高效光催化。与八面体 α-MnS 形状的复合材料相比,立方体 α-MnS 形状的复合材料具有更高的光催化活性。α-MnS与ZIF-67的组合构建了一个具有内置电场的p-n结,将响应扩展到可见光区域,促进了电荷载流子的迁移,从而提高了光催化性能。我们的研究结果表明,超氧自由基(O2-)是光催化降解过程中的主要反应物。这项研究为通过晶面工程和构建 p-n 结来开发高性能、稳定的金属有机框架(MOF)光催化剂提供了新的见解。
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来源期刊
Surfaces and Interfaces
Surfaces and Interfaces Chemistry-General Chemistry
CiteScore
8.50
自引率
6.50%
发文量
753
审稿时长
35 days
期刊介绍: The aim of the journal is to provide a respectful outlet for ''sound science'' papers in all research areas on surfaces and interfaces. We define sound science papers as papers that describe new and well-executed research, but that do not necessarily provide brand new insights or are merely a description of research results. Surfaces and Interfaces publishes research papers in all fields of surface science which may not always find the right home on first submission to our Elsevier sister journals (Applied Surface, Surface and Coatings Technology, Thin Solid Films)
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