Scanning probe microscopy

Scanning probe microscopy (SPM), a key invention in nanoscience, has by now been extended to a wide spectrum of basic and applied fields. Its application to basic science led to a paradigm shift in the understanding and perception of matter at its nanoscopic and even atomic levels. SPM uses a sharp...

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Published in	Nature Reviews Methods Primers Vol. 1; no. 1; p. 36
Main Authors	Bian, Ke, Gerber, Christoph, Heinrich, Andreas J, Müller, Daniel J, Scheuring, Simon, Jiang, Ying
Format	Journal Article
Language	English
Published	London Nature Publishing Group 01.12.2021
Subjects	Atomic force microscopy Data analysis Electric fields Electric noise Electrons Laboratories Magnetic properties Materials science Mechanical properties Microscopy Optical properties Physical sciences Raster scanning Reproducibility Scanners Scanning probe microscopy Scanning tunneling microscopy Spectroscopy Vibration
Online Access	Get full text
ISSN	2662-8449
DOI	10.1038/s43586-021-00033-2

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Abstract	Scanning probe microscopy (SPM), a key invention in nanoscience, has by now been extended to a wide spectrum of basic and applied fields. Its application to basic science led to a paradigm shift in the understanding and perception of matter at its nanoscopic and even atomic levels. SPM uses a sharp tip to physically raster-scan samples and locally collect information from the surface. Various signals can be directly detected by SPM in real space with atomic or nanoscale resolution, which provides insights into the structural, electronic, vibrational, optical, magnetic, (bio)chemical and mechanical properties. This Primer introduces the key aspects and general features of SPM and SPM set-up and variations, with particular focus on scanning tunnelling microscopy and atomic force microscopy. We outline how to conduct SPM experiments, as well as data analysis of SPM imaging, spectroscopy and manipulation. Recent applications of SPM to physics, chemistry, materials science and biology are then highlighted, with representative examples. We outline issues with reproducibility, and standards on open data are discussed. This Primer also raises awareness of the ongoing challenges and possible ways to overcome these difficulties, followed by an outlook of future possible directions.Bian et al. discuss the utility of different variants of scanning probe microscopy, with a focus on scanning tunnelling microscopy and atomic force microscopy. They summarize how the tools are used in the life and physical sciences.
AbstractList	Scanning probe microscopy (SPM), a key invention in nanoscience, has by now been extended to a wide spectrum of basic and applied fields. Its application to basic science led to a paradigm shift in the understanding and perception of matter at its nanoscopic and even atomic levels. SPM uses a sharp tip to physically raster-scan samples and locally collect information from the surface. Various signals can be directly detected by SPM in real space with atomic or nanoscale resolution, which provides insights into the structural, electronic, vibrational, optical, magnetic, (bio)chemical and mechanical properties. This Primer introduces the key aspects and general features of SPM and SPM set-up and variations, with particular focus on scanning tunnelling microscopy and atomic force microscopy. We outline how to conduct SPM experiments, as well as data analysis of SPM imaging, spectroscopy and manipulation. Recent applications of SPM to physics, chemistry, materials science and biology are then highlighted, with representative examples. We outline issues with reproducibility, and standards on open data are discussed. This Primer also raises awareness of the ongoing challenges and possible ways to overcome these difficulties, followed by an outlook of future possible directions.Bian et al. discuss the utility of different variants of scanning probe microscopy, with a focus on scanning tunnelling microscopy and atomic force microscopy. They summarize how the tools are used in the life and physical sciences.
Author	Gerber, Christoph Scheuring, Simon Heinrich, Andreas J Bian, Ke Jiang, Ying Müller, Daniel J
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SubjectTerms	Atomic force microscopy Data analysis Electric fields Electric noise Electrons Laboratories Magnetic properties Materials science Mechanical properties Microscopy Optical properties Physical sciences Raster scanning Reproducibility Scanners Scanning probe microscopy Scanning tunneling microscopy Spectroscopy Vibration
Title	Scanning probe microscopy
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