压电(光)催化合成高附加值化学品的进展与机遇

EES catalysis Pub Date : 2024-02-28 DOI:10.1039/D3EY00313B
Weiliang Qi, Yaping Fu, Enbo Liu, Zhixing Cheng, Yuxiu Sun, Siqi Liu and Minghui Yang
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引用次数: 0

摘要

压电(光)催化技术通过将机械能和光能转化为化学能,为加速能源多样化和解决环境污染问题提供了一种前景广阔的解决方案。压电(光)催化技术的应用不仅能满足日益增长的市场需求,还有助于环境保护。在本综述中,我们总结了通过压电(光)催化技术合成高附加值化学品的最新进展,重点介绍了压电电子学和压电光电子学的原理。我们研究了能量转换所涉及的基本过程,并讨论了利用压电催化技术合成增值化学品的优势。我们探讨了不同的化学原理、反应途径,并根据压电光催化的性能对压电半导体进行了分类。最后,我们确定了利用压电(光)催化技术合成增值化学品的未来研发前景、挑战和潜在解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Advancements and opportunities in piezo-(photo)catalytic synthesis of value-added chemicals

Advancements and opportunities in piezo-(photo)catalytic synthesis of value-added chemicals

Piezo-(photo)catalytic technologies offer a promising solution for accelerating energy diversification and addressing environmental pollution by converting mechanical and light energy into chemical energy. The application of piezo-(photo)catalytic technology not only meets the demands of a growing market but also contributes to environmental preservation. In this review, we summarize recent advancements in synthesizing value-added chemicals through piezo-(photo)catalytic technology, highlighting the principles of piezotronics and piezo-phototronics. We examine the fundamental processes involved in energy conversion and discuss the advantages of synthesized value-added chemicals using piezocatalytic technology. We explore different chemistries and reaction pathways, and categorize piezoelectric semiconductors based on performance in piezo-photocatalysis. Finally, we identify prospects, challenges, and potential solutions for future research and development in value-added chemical synthesis using piezo-(photo)catalytic technology.

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