Clay-Catalyzed Ozonation of Hydrotalcite-Extracted Lactic Acid Potential Application for Preventing Milk Fermentation Inhibition

An unprecedented route for mitigating the inhibitory effect of lactic acid (LA) on milk fermentation was achieved through lactate adsorption on hydrotalcite (Ht) from simulated lactate extracts. During its regeneration by ozonation, Ht displayed catalytic activity that appeared to increase by additi...

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Autores principales: El Baktaoui, Meriem, Hadj-Abdelkader, Nour El Houda, Benghaffour, Amina, Arus, Vasilica-Alisa, Bennani-Daouadji, Nadia, Belkhadem, Fatiha, Roy, René, Azzouz, Abdelkrim
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9572240/
https://www.ncbi.nlm.nih.gov/pubmed/36235039
http://dx.doi.org/10.3390/molecules27196502
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author El Baktaoui, Meriem
Hadj-Abdelkader, Nour El Houda
Benghaffour, Amina
Arus, Vasilica-Alisa
Bennani-Daouadji, Nadia
Belkhadem, Fatiha
Roy, René
Azzouz, Abdelkrim
author_facet El Baktaoui, Meriem
Hadj-Abdelkader, Nour El Houda
Benghaffour, Amina
Arus, Vasilica-Alisa
Bennani-Daouadji, Nadia
Belkhadem, Fatiha
Roy, René
Azzouz, Abdelkrim
author_sort El Baktaoui, Meriem
collection PubMed
description An unprecedented route for mitigating the inhibitory effect of lactic acid (LA) on milk fermentation was achieved through lactate adsorption on hydrotalcite (Ht) from simulated lactate extracts. During its regeneration by ozonation, Ht displayed catalytic activity that appeared to increase by addition of montmorillonite (Mt). Changes in the pH, Zeta potential and catalyst particle size during LA ozonation were found to strongly influence LA–LA, LA–catalyst and catalyst–catalyst interactions. The latter determine lactate protonation–deprotonation and clay dispersion in aqueous media. The activity of Mt appears to involve hydrophobic adsorption of non-dissociated LA molecules on silica-rich areas at low pH, and Lewis acid–base and electrostatic interactions at higher pH than the pKa. Hydrotalcite promotes both hydrophobic interaction and anion exchange. Hydrotalcite–smectite mixture was found to enhance clay dispersion and catalytic activity. This research allowed demonstrating that natural clay minerals can act both as adsorbents for LA extract from fermentation broths and as catalysts for adsorbent regeneration. The results obtained herein provide valuable and useful findings for envisaging seed-free milk clotting in dairy technologies.
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spelling pubmed-95722402022-10-17 Clay-Catalyzed Ozonation of Hydrotalcite-Extracted Lactic Acid Potential Application for Preventing Milk Fermentation Inhibition El Baktaoui, Meriem Hadj-Abdelkader, Nour El Houda Benghaffour, Amina Arus, Vasilica-Alisa Bennani-Daouadji, Nadia Belkhadem, Fatiha Roy, René Azzouz, Abdelkrim Molecules Article An unprecedented route for mitigating the inhibitory effect of lactic acid (LA) on milk fermentation was achieved through lactate adsorption on hydrotalcite (Ht) from simulated lactate extracts. During its regeneration by ozonation, Ht displayed catalytic activity that appeared to increase by addition of montmorillonite (Mt). Changes in the pH, Zeta potential and catalyst particle size during LA ozonation were found to strongly influence LA–LA, LA–catalyst and catalyst–catalyst interactions. The latter determine lactate protonation–deprotonation and clay dispersion in aqueous media. The activity of Mt appears to involve hydrophobic adsorption of non-dissociated LA molecules on silica-rich areas at low pH, and Lewis acid–base and electrostatic interactions at higher pH than the pKa. Hydrotalcite promotes both hydrophobic interaction and anion exchange. Hydrotalcite–smectite mixture was found to enhance clay dispersion and catalytic activity. This research allowed demonstrating that natural clay minerals can act both as adsorbents for LA extract from fermentation broths and as catalysts for adsorbent regeneration. The results obtained herein provide valuable and useful findings for envisaging seed-free milk clotting in dairy technologies. MDPI 2022-10-01 /pmc/articles/PMC9572240/ /pubmed/36235039 http://dx.doi.org/10.3390/molecules27196502 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
El Baktaoui, Meriem
Hadj-Abdelkader, Nour El Houda
Benghaffour, Amina
Arus, Vasilica-Alisa
Bennani-Daouadji, Nadia
Belkhadem, Fatiha
Roy, René
Azzouz, Abdelkrim
Clay-Catalyzed Ozonation of Hydrotalcite-Extracted Lactic Acid Potential Application for Preventing Milk Fermentation Inhibition
title Clay-Catalyzed Ozonation of Hydrotalcite-Extracted Lactic Acid Potential Application for Preventing Milk Fermentation Inhibition
title_full Clay-Catalyzed Ozonation of Hydrotalcite-Extracted Lactic Acid Potential Application for Preventing Milk Fermentation Inhibition
title_fullStr Clay-Catalyzed Ozonation of Hydrotalcite-Extracted Lactic Acid Potential Application for Preventing Milk Fermentation Inhibition
title_full_unstemmed Clay-Catalyzed Ozonation of Hydrotalcite-Extracted Lactic Acid Potential Application for Preventing Milk Fermentation Inhibition
title_short Clay-Catalyzed Ozonation of Hydrotalcite-Extracted Lactic Acid Potential Application for Preventing Milk Fermentation Inhibition
title_sort clay-catalyzed ozonation of hydrotalcite-extracted lactic acid potential application for preventing milk fermentation inhibition
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9572240/
https://www.ncbi.nlm.nih.gov/pubmed/36235039
http://dx.doi.org/10.3390/molecules27196502
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