Automated statistical analysis of Raman spectra of nanomaterials

27 October 2023, Version 3
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Both at the academic and the industrial level, material scientists are exploring routes for mass production and functionalization of graphene, carbon nanotubes (CNT), carbon dots, 2D materials, and heterostructures of these. Proper application of the novel materials requires fast and thorough characterization of the samples. Raman spectroscopy stands out as a standard non-invasive technique capable of giving key information on the structure and electronic properties of nanomaterials, including the presence of defects, degree of functionalization, diameter (in the case of CNT), different polytypes, doping, etc. Here, we present a computational tool to automatically analyze the Raman spectral features of nanomaterials, which we illustrate with the example of CNT and graphene. The algorithm manages hundreds of spectra simultaneously and provides statistical information (distribution of Raman shifts, average values of shifts and relative intensities, standard deviations, correlation between different peaks, etc.) of the main spectral features defining the structure and electronic properties of the samples, as well as publication-ready graphical material.

Keywords

Nanomaterials
Raman
Automated analysis
Carbon nanotubes
Graphene
MoS2
Python
Matlab

Supplementary materials

Title
Description
Actions
Title
ReadMe
Description
General instructions
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Matlab analysis GUI
Description
Graphical User Interface for Matlab code
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Title
Matlab Lorentz
Description
Lorentz fitting for Matlab
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Matlab Voigt
Description
Voigt fitting for Matlab
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GUI Python
Description
Graphical User Interface for Python
Actions
Title
Loretntz Python
Description
Lorentz fitting for Python
Actions
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Test data
Description
Test data
Actions

Supplementary weblinks

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