Nanoreinforcement strategies for enhancing biodegradable composites in biochemical applications within agriwaste valorisation

Nanoreinforcement strategies for enhancing biodegradable composites in biochemical applications within agriwaste valorisation

Exploring secondary outputs, specifically leftover materials from steam distillation of Rosmarinus tournefortii de Noé, as agents for reducing metals introduces a novel approach to eco-friendly nanomaterial production. This concept aligns with the creation of environmentally conscious nanoparticles,...

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Bibliographic Details
Published in:Biocatalysis and agricultural biotechnology Vol. 58; p. 103223
Main Authors: Ziani, Imane, El Guerraf, Abdelqader, Bentouhami, Nour Eddine, Brahmi, Mohamed, Bouakline, Hamza, El Bachiri, Ali, Fauconnier, Marie-Laure, Ansar, Sabah, Sher, Farooq
Format: Journal Article Web Resource
Language:English
Published: Elsevier Ltd 01-06-2024
Elsevier BV
Subjects:
Agriculture & agronomie
Agriculture & agronomy
Antioxidant
Bio-based materials
Bioconversion
Chemistry
Chimie
Environment
Life sciences
Nano reinforcement
Physical, chemical, mathematical & earth Sciences
Physique, chimie, mathématiques & sciences de la terre
Rosmarinus tournefortii
Rosmarinus tournefortii de Noé
Sciences du vivant
Sustainability
Sustainability
Nano reinforcement
Rosmarinus tournefortii de Noé
Bioconversion
Environment
Antioxidant
Bio-based materials
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Summary:Exploring secondary outputs, specifically leftover materials from steam distillation of Rosmarinus tournefortii de Noé, as agents for reducing metals introduces a novel approach to eco-friendly nanomaterial production. This concept aligns with the creation of environmentally conscious nanoparticles, showcasing potential across various fields, notably biomedicine. By utilizing R. tournefortii de Noé, successful synthesis of silver nanoparticles (AgNPs) was achieved, yielding nanoscale variations influenced by plant's by-products. Beyond structural aspects, investigating biomedical applications, focusing on antioxidant and antimicrobial properties. Consistently observing ∼94.9–97.3% scavenging inhibition in water residues at different concentrations and enhanced antimicrobial efficacy against Gram-negative and Gram-positive bacteria and Rhodotorula glutinis yeast due to these residues. Moreover, a thorough examination using density functional theory unveiled a robust interaction between silver clusters and specific biomolecules found within the residues, namely homoplantaginin, protocatechuic acid-glycoside, caffeic, and rosmarinic acids (ranging from 130.62 to 357.05 kcal/mol). These compounds notably enhance reducing efficacy of Ag + ions and contribute to the enduring stability of AgNPs (ζ values: −22.8 mV and −17.2 mV). Furthermore, the study recognizes challenges in finding alternative surface modification agents and explores intricate toxicity mechanisms of silver nanoparticles, emphasizing their interactions with inflammation. Introducing promising nanomedicine approaches involving rosmarinic acid nanoparticles for inflammatory bowel disease and rheumatoid arthritis, highlighting the potential of rosemary by-products derived compounds in innovative therapeutic interventions for diverse inflammatory conditions. [Display omitted] •Synergistic AgNPs synthesis using eco-friendly R. tournefortii de Noé by-products.•By-products yielded spherical nanoparticles with varied nanoscale diameters.•Enhanced antioxidant and antibacterial activities were demonstrated.•DFT highlighted biomolecules (130.62–357.05 kcal/mol) enhancing stability.•AgNPs toxicity mechanisms and interactions in inflammation elucidated.
Bibliography:scopus-id:2-s2.0-85193434971
ISSN:1878-8181
1878-8181
DOI:10.1016/j.bcab.2024.103223