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The fingerprint method for analysis of thermal desorption spectra.


ABSTRACT: The analysis of thermal desorption spectra (TDS) and the calculation of hydrogen detrapping activation energies rely on Gaussian peak deconvolution and Choo-Lee plot regression since 1982. However, this method imposes important assumptions about the number and shape of the TDS peaks used for fitting. In this study, we propose the fingerprint method, an alternative approach that eliminates these long-standing constraints. By applying the fingerprint analysis to eight TDS spectra from three different Fe-C model alloys, we demonstrate its exceptional sensitivity and ability to resolve activation energy distributions - the material fingerprint - unattainable with traditional methods. We further showcase by manual and automated analysis how the such obtained fingerprints can be used to uniquely distinguish the TDS spectra of each alloy independent of the heating rate. Thus the fingerprint method also increases experimental efficiency by reducing the amount of necessary heating rates for TDS down to one.

SUBMITTER: Hammer P 

PROVIDER: S-EPMC12799485 | biostudies-literature | 2026

REPOSITORIES: biostudies-literature

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The fingerprint method for analysis of thermal desorption spectra.

Hammer Philipp P   Peil Oleg E OE   Azizpour Ahmad A   Vandewalle Liese L   Verbeken Kim K   Depover Tom T   Razumovskiy Vsevolod I VI  

Npj Materials degradation 20251210 1


The analysis of thermal desorption spectra (TDS) and the calculation of hydrogen detrapping activation energies rely on Gaussian peak deconvolution and Choo-Lee plot regression since 1982. However, this method imposes important assumptions about the number and shape of the TDS peaks used for fitting. In this study, we propose the <i>fingerprint</i> method, an alternative approach that eliminates these long-standing constraints. By applying the <i>fingerprint</i> analysis to eight TDS spectra fro  ...[more]

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