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Operando Surface Characterization on Catalytic and Energy Materials from Single Crystals to Nanoparticles

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Title
Operando Surface Characterization on Catalytic and Energy Materials from Single Crystals to Nanoparticles
Author(s)
Joong Il Jake Choi; Taek-Seung Kim; Daeho Kim; Si Woo Lee; Jeong Young Park
Subject
ambient pressure scanning tunneling microscopy, ; ambient pressure X-ray photoelectron spectroscopy, ; ambient-pressure atomic force microscopy, ; catalytic nanodiode, ; materials and pressure gaps, ; nanocatalysts, ; operando surface science, ; perovskite surface, ; surface science
Publication Date
2020-12
Journal
ACS NANO, v.14, no.12, pp.16392 - 16413
Publisher
AMER CHEMICAL SOC
Abstract
Modern surface science faces two major challenges, a materials gap and a pressure gap. While studies on single crystal surface in ultrahigh vacuum have uncovered the atomic and electronic structures of the surface, the materials and environmental conditions of commercial catalysis are much more complicated, both in the structure of the materials and in the accessible pressure range of analysis instruments. Model systems and operando surface techniques have been developed to bridge these gaps. In this Review, we highlight the current trends in the development of the surface characterization techniques and methodologies in more realistic environments, with emphasis on recent research efforts at the Korea Advanced Institute of Science and Technology. We show principles and applications of the microscopic and spectroscopic surface techniques at ambient pressure that were used for the characterization of atomic structure, electronic structure, charge transport, and the mechanical properties of catalytic and energy materials. Ambient pressure scanning tunneling microscopy and X-ray photoelectron spectroscopy allow us to observe the surface restructuring that occurs during oxidation, reduction, and catalytic processes. In addition, we introduce the ambient pressure atomic force microscopy that revealed the morphological, mechanical, and charge transport properties that occur during the catalytic and energy conversion processes. Hot electron detection enables the monitoring of catalytic reactions and electronic excitations on the surface. Overall, the information on the nature of catalytic reactions obtained with operando spectroscopic and microscopic techniques may bring breakthroughs in some of the global energy and environmental problems the world is facing.
URI
https://pr.ibs.re.kr/handle/8788114/9084
DOI
10.1021/acsnano.0c07549
ISSN
1936-0851
Appears in Collections:
Center for Nanomaterials and Chemical Reactions(나노물질 및 화학반응 연구단) > 1. Journal Papers (저널논문)
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