Surface chemistry of carbon dioxide revisited

IF 8.2 1区化学 Q1 CHEMISTRY, PHYSICAL

Surface Science Reports Pub Date : 2016-12-01 DOI:10.1016/j.surfrep.2016.09.001

William Taifan , Jean-François Boily , Jonas Baltrusaitis

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引用次数: 115

Abstract

This review discusses modern developments in CO₂ surface chemistry by focusing on the work published since the original review by H.J. Freund and M.W. Roberts two decades ago (Surface Science Reports 25 (1996) 225–273). It includes relevant fundamentals pertaining to the topics covered in that earlier review, such as conventional metal and metal oxide surfaces and CO₂ interactions thereon. While UHV spectroscopy has routinely been applied for CO₂ gas–solid interface analysis, the present work goes further by describing surface–CO₂ interactions under elevated CO₂ pressure on non-oxide surfaces, such as zeolites, sulfides, carbides and nitrides. Furthermore, it describes additional salient in situ techniques relevant to the resolution of the interfacial chemistry of CO₂, notably infrared spectroscopy and state-of-the-art theoretical methods, currently used in the resolution of solid and soluble carbonate species in liquid–water vapor, liquid–solid and liquid–liquid interfaces. These techniques are directly relevant to fundamental, natural and technological settings, such as heterogeneous and environmental catalysis and CO₂ sequestration.

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二氧化碳的表面化学性质

这篇综述讨论了CO2表面化学的现代发展，重点介绍了自20年前H.J. Freund和M.W. Roberts最初的综述以来发表的工作(表面科学报告25(1996)225-273)。它包括与先前审查中所涵盖的主题有关的相关基础知识，例如传统金属和金属氧化物表面以及其上的二氧化碳相互作用。虽然特高压光谱通常用于CO2气固界面分析，但目前的工作更进一步，描述了在非氧化物表面(如沸石、硫化物、碳化物和氮化物)升高CO2压力下的表面- CO2相互作用。此外，它还描述了与CO2界面化学分辨率相关的其他突出的原位技术，特别是红外光谱和最先进的理论方法，目前用于液体-水蒸气、液体-固体和液体-液体界面中固体和可溶性碳酸盐的分辨率。这些技术与基础、自然和技术环境直接相关，例如多相和环境催化以及二氧化碳封存。

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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来源期刊

Surface Science Reports 化学-物理：凝聚态物理

CiteScore

15.90

自引率

2.00%

发文量

审稿时长

178 days

期刊介绍： Surface Science Reports is a journal that specializes in invited review papers on experimental and theoretical studies in the physics, chemistry, and pioneering applications of surfaces, interfaces, and nanostructures. The topics covered in the journal aim to contribute to a better understanding of the fundamental phenomena that occur on surfaces and interfaces, as well as the application of this knowledge to the development of materials, processes, and devices. In this journal, the term "surfaces" encompasses all interfaces between solids, liquids, polymers, biomaterials, nanostructures, soft matter, gases, and vacuum. Additionally, the journal includes reviews of experimental techniques and methods used to characterize surfaces and surface processes, such as those based on the interactions of photons, electrons, and ions with surfaces.