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2D surface optical reflectance for use in harsh reactive environments

Zetterberg, J. LU orcid ; Larsson, A. LU ; Grespi, A. LU ; Pfaff, S. LU ; Rämisch, L. LU ; Merte, L. R. and Lundgren, E. LU (2025) In Journal of Physics Condensed Matter 37(13).
Abstract

In recent years, studies of surfaces at more realistic conditions has advanced significantly, leading to an increased understanding of surface dynamics under reaction conditions. The development has mainly been due to the development of new experimental techniques or new experimental approaches. Techniques such as High Pressure Scanning Tunneling/Force Microscopy, Ambient Pressure x-ray Photo emission Spectroscopy, Surface x-ray Diffraction, Polarization-Modulation InfraRed Reflection Absorption Spectroscopy and Planar Laser Induced Fluorescence at semi-realistic conditions has been used to study planar model catalysts or industrial materials under operating conditions. 2D-Surface Optical Reflectance has recently received attention as a... (More)

In recent years, studies of surfaces at more realistic conditions has advanced significantly, leading to an increased understanding of surface dynamics under reaction conditions. The development has mainly been due to the development of new experimental techniques or new experimental approaches. Techniques such as High Pressure Scanning Tunneling/Force Microscopy, Ambient Pressure x-ray Photo emission Spectroscopy, Surface x-ray Diffraction, Polarization-Modulation InfraRed Reflection Absorption Spectroscopy and Planar Laser Induced Fluorescence at semi-realistic conditions has been used to study planar model catalysts or industrial materials under operating conditions. 2D-Surface Optical Reflectance has recently received attention as a useful experimental tool used in gaseous and liquid harsh conditions by providing complementary experimental information on planar model samples as well as being a powerful experimental tool on its own. The simplicity of the approach and the cost of the equipment makes it an attractive alternative and useful tool for surface science studies under reaction conditions. In this topical review, we review some recent studies that have been promoted by the technical development in optical components, image acquisition and computational image analysis.

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author
; ; ; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
catalysis, electrochemistry, optical reflectance, surface science, synchrotron radiation
in
Journal of Physics Condensed Matter
volume
37
issue
13
article number
133003
publisher
IOP Publishing
external identifiers
  • pmid:39874656
  • scopus:85217216930
ISSN
0953-8984
DOI
10.1088/1361-648X/adaf69
language
English
LU publication?
yes
id
bd645fe7-6178-4712-99ab-bb7fdb67b6d5
date added to LUP
2025-03-21 10:45:03
date last changed
2025-07-11 19:38:10
@article{bd645fe7-6178-4712-99ab-bb7fdb67b6d5,
  abstract     = {{<p>In recent years, studies of surfaces at more realistic conditions has advanced significantly, leading to an increased understanding of surface dynamics under reaction conditions. The development has mainly been due to the development of new experimental techniques or new experimental approaches. Techniques such as High Pressure Scanning Tunneling/Force Microscopy, Ambient Pressure x-ray Photo emission Spectroscopy, Surface x-ray Diffraction, Polarization-Modulation InfraRed Reflection Absorption Spectroscopy and Planar Laser Induced Fluorescence at semi-realistic conditions has been used to study planar model catalysts or industrial materials under operating conditions. 2D-Surface Optical Reflectance has recently received attention as a useful experimental tool used in gaseous and liquid harsh conditions by providing complementary experimental information on planar model samples as well as being a powerful experimental tool on its own. The simplicity of the approach and the cost of the equipment makes it an attractive alternative and useful tool for surface science studies under reaction conditions. In this topical review, we review some recent studies that have been promoted by the technical development in optical components, image acquisition and computational image analysis.</p>}},
  author       = {{Zetterberg, J. and Larsson, A. and Grespi, A. and Pfaff, S. and Rämisch, L. and Merte, L. R. and Lundgren, E.}},
  issn         = {{0953-8984}},
  keywords     = {{catalysis; electrochemistry; optical reflectance; surface science; synchrotron radiation}},
  language     = {{eng}},
  number       = {{13}},
  publisher    = {{IOP Publishing}},
  series       = {{Journal of Physics Condensed Matter}},
  title        = {{2D surface optical reflectance for use in harsh reactive environments}},
  url          = {{http://dx.doi.org/10.1088/1361-648X/adaf69}},
  doi          = {{10.1088/1361-648X/adaf69}},
  volume       = {{37}},
  year         = {{2025}},
}