Exploring opportunities in operando DRIFTS and complementary techniques for advancing plasma catalysis†

EES catalysis Pub Date : 2024-07-16 DOI:10.1039/D4EY00088A
Stefano Dell’Orco, Noemi Leick, Jeffrey L. Alleman, Susan E. Habas and Calvin Mukarakate
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Abstract

Exploring the dynamic interaction of non-thermal plasma (NTP) with catalytic processes is critical to unravelling elusive catalyst structure–function relationships under NTP conditions, specifically dielectric barrier discharges (DBD). This study investigates the efficacy of operando diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS) as a tool for characterizing intermediates created by NTP on catalyst surfaces. Leveraging insights from traditional DRIFTS in thermochemical catalysis, we explore the complexities of plasma-induced catalytic reactions, discussing both opportunities and limitations of DRIFTS to study these reaction mechanisms. By summarizing findings from literature and addressing existing knowledge gaps, this perspective highlights how different DRIFTS configurations can affect results, stressing the importance of establishing best practices for studying DBD-driven reactions with DRIFTS. The intended outcomes of this work are to provide guidance on how to effectively use DRIFTS, share fundamental insights into DBD-assisted catalysis, and emphasize the need for complementary techniques to develop catalysts suited for NTP environments.

Abstract Image

探索操作型 DRIFTS 和互补技术在推进等离子催化方面的机遇
探索非热等离子体 (NTP) 与催化过程的动态相互作用对于揭示 NTP 条件下难以捉摸的催化剂结构-功能关系至关重要。本研究调查了操作漫反射红外傅立叶变换光谱(DRIFTS)作为测量催化剂表面 NTP 生成的中间产物的工具的功效。利用传统 DRIFTS 在热化学催化方面的见解,我们探索了等离子体诱导催化反应的复杂性,讨论了使用 DRIFTS 研究这些反应机制的机会和局限性。通过总结文献中的发现和解决现有的知识差距,本视角强调了不同的 DRIFTS 配置会如何影响结果,强调了建立使用 DRIFTS 研究 NTP 驱动反应的最佳实践的重要性。这项工作的预期成果是为如何有效使用 DRIFTS 提供指导,分享对 NTP 辅助催化的基本见解,并强调开发适合 NTP 环境的催化剂需要补充技术。
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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