Pyrolysis gas chromatography mass spectrometry: A promising tool for disclosing metal-free tanning agents used in leather industry

Leather represents the principal industrial product derived from the skin of animals. Leather manufacturing has evolved from artisanal practice, making use of vegetable tannins, to industrial production, today mostly based on chromium salts. Chromium tanning accounts for the most efficient and affor...

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Bibliographic Details
Published in:Journal of analytical and applied pyrolysis 2023-01, Vol.169, p.105803, Article 105803
Main Authors: Sabatini, Francesca, Corsi, Iacopo, Ceccarini, Alessio, Brillanti, Marco, Colombini, Maria Perla, Bonaduce, Ilaria
Format: Article
Language:English
Subjects:
Analytical pyrolysis
cattle
chromium
EGA-MS
gas chromatography-mass spectrometry
heavy metals
Italy
leather
leather industry
markets
Metal-Free leather
pollution
pyrolysis
pyrolysis gas chromatography
sulfates
traditional technology
vegetables
Wet-Blue
Wet-White
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Summary:Leather represents the principal industrial product derived from the skin of animals. Leather manufacturing has evolved from artisanal practice, making use of vegetable tannins, to industrial production, today mostly based on chromium salts. Chromium tanning accounts for the most efficient and affordable process available on the market, but the environmental pressure caused by heavy metal pollution has pushed towards the development of Metal-Free leather tanning agents. This paper aims at highlighting the potentialities and limits of analytical pyrolysis to characterise metal-free leather samples and to identify the tanning agents. To this aim, thirty-three bovine split leather samples tanned with various metal-free tanning agents (constituted by single or combined formulations of GRANOFIN® F90, glutaraldehyde, tetrakis(hydroxymethyl)phosphonium sulphate, oxazolidine and three different synthetic tannins), provided by bovine split suppliers (Tuscany, Italy) were analysed by flash Pyrolysis coupled with Gas Chromatography - Mass Spectrometry (Py-GC-MS). For most of the tanning formulations, Py-GC-MS was able to determine pyrolytic markers in reference materials, intermediates (wet-white metal-free and metal-free crust) and end-products (metal-free final products). Evolved Gas Analysis coupled with Mass Spectrometry (EGA-MS) was used to evaluate, from the molecular point of view, the thermodegradative profiles of metal-free leathers and compare them with that of chromium tanned leather. •Py-GC-MS was tested to characterise metal-free leather samples.•Pyrolytic markers were determined for most of tanning formulations investigated.•Py-GC-MS was proposed as aneasy-to-use method for the analysis of leathers products at each stage of the production.•The semi-quantitative evaluation of the pyrograms allowed to roughly indicate the proportions of the tanning agents.•EGA-MS was used to evaluate the different thermal stability of wet-white and wet-blue products.
ISSN:0165-2370
1873-250X
DOI:10.1016/j.jaap.2022.105803