Hemp cellulose-based aerogels and cryogels: From waste biomass to sustainable absorbent pads for food preservation
This study presents a circular economy approach utilizing hemp stems and rice straw, typically perceived as low-value agricultural waste, to develop a sustainable alternative to traditional plastic absorbent pads for food packaging. The development of an active material was achieved through the utilization of hemp cellulose and a bioactive extract isolated from rice straw. In addition to reducing plastic pollution, this material demonstrates the potential to enhance food preservation. This research provides evidence of the benefits of repurposing agricultural by-products to create valuable and environmentally-friendly products. Hemp cellulose was extracted, characterized, and processed to develop stable aerogels and cryogels through supercritical CO2 drying and freeze-drying. The water stability and internal structure of the materials were guided via TEMPO-mediated oxidation and high-pressure homogenization. Both materials showed versatile physicochemical and mechanical properties. Nevertheless, with higher water sorption (2.20 mL/g), minimal dimensional changes, and lower shrinkage, cryogels were suitable for meat absorbent pad application. To enhance the cryogels functionality, they were impregnated with a rice straw bioactive extract in two different concentrations. The incorporation of the extract did not affect the structure of the cryogels, improved their mechanical properties and the antioxidant activity remained stable after drying (63.89–78.96 %). Finally, the performance of the developed materials was compared to commercial plastic pads and pristine meat preservation challenge test during 9 days at refrigeration conditions. The incorporation of rice straw extract improved meat color preservation. While moderate extract concentrations (75 mg/g) showed a protective effect against lipid oxidation, higher levels (187.5 mg/g) induced pro-oxidant reactions. This research highlights the potential of hemp cellulose-based cryogels as sustainable and functional packaging materials for meat products.
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| Language: | English |
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Elsevier
2024-10-19
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| Subjects: | Absorbent pads, Aerogels, Cryogels, Food preservation, Hemp cellulose, food preservation, |
| Online Access: | http://hdl.handle.net/10261/371798 https://api.elsevier.com/content/abstract/scopus_id/85207293212 |
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Absorbent pads Aerogels Cryogels Food preservation Hemp cellulose food preservation Absorbent pads Aerogels Cryogels Food preservation Hemp cellulose food preservation |
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Absorbent pads Aerogels Cryogels Food preservation Hemp cellulose food preservation Absorbent pads Aerogels Cryogels Food preservation Hemp cellulose food preservation Cabrera Villamizar, Laura Pereira, Jéssica Fernanda Castanedo, María López-Rubio, Amparo Fabra, María José Hemp cellulose-based aerogels and cryogels: From waste biomass to sustainable absorbent pads for food preservation |
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This study presents a circular economy approach utilizing hemp stems and rice straw, typically perceived as low-value agricultural waste, to develop a sustainable alternative to traditional plastic absorbent pads for food packaging. The development of an active material was achieved through the utilization of hemp cellulose and a bioactive extract isolated from rice straw. In addition to reducing plastic pollution, this material demonstrates the potential to enhance food preservation. This research provides evidence of the benefits of repurposing agricultural by-products to create valuable and environmentally-friendly products. Hemp cellulose was extracted, characterized, and processed to develop stable aerogels and cryogels through supercritical CO2 drying and freeze-drying. The water stability and internal structure of the materials were guided via TEMPO-mediated oxidation and high-pressure homogenization. Both materials showed versatile physicochemical and mechanical properties. Nevertheless, with higher water sorption (2.20 mL/g), minimal dimensional changes, and lower shrinkage, cryogels were suitable for meat absorbent pad application. To enhance the cryogels functionality, they were impregnated with a rice straw bioactive extract in two different concentrations. The incorporation of the extract did not affect the structure of the cryogels, improved their mechanical properties and the antioxidant activity remained stable after drying (63.89–78.96 %). Finally, the performance of the developed materials was compared to commercial plastic pads and pristine meat preservation challenge test during 9 days at refrigeration conditions. The incorporation of rice straw extract improved meat color preservation. While moderate extract concentrations (75 mg/g) showed a protective effect against lipid oxidation, higher levels (187.5 mg/g) induced pro-oxidant reactions. This research highlights the potential of hemp cellulose-based cryogels as sustainable and functional packaging materials for meat products. |
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Generalitat Valenciana |
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Generalitat Valenciana Cabrera Villamizar, Laura Pereira, Jéssica Fernanda Castanedo, María López-Rubio, Amparo Fabra, María José |
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artículo |
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Absorbent pads Aerogels Cryogels Food preservation Hemp cellulose food preservation |
| author |
Cabrera Villamizar, Laura Pereira, Jéssica Fernanda Castanedo, María López-Rubio, Amparo Fabra, María José |
| author_sort |
Cabrera Villamizar, Laura |
| title |
Hemp cellulose-based aerogels and cryogels: From waste biomass to sustainable absorbent pads for food preservation |
| title_short |
Hemp cellulose-based aerogels and cryogels: From waste biomass to sustainable absorbent pads for food preservation |
| title_full |
Hemp cellulose-based aerogels and cryogels: From waste biomass to sustainable absorbent pads for food preservation |
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Hemp cellulose-based aerogels and cryogels: From waste biomass to sustainable absorbent pads for food preservation |
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Hemp cellulose-based aerogels and cryogels: From waste biomass to sustainable absorbent pads for food preservation |
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hemp cellulose-based aerogels and cryogels: from waste biomass to sustainable absorbent pads for food preservation |
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Elsevier |
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2024-10-19 |
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http://hdl.handle.net/10261/371798 https://api.elsevier.com/content/abstract/scopus_id/85207293212 |
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1816138540736577536 |
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dig-iata-es-10261-3717982024-11-14T08:46:43Z Hemp cellulose-based aerogels and cryogels: From waste biomass to sustainable absorbent pads for food preservation Cabrera Villamizar, Laura Pereira, Jéssica Fernanda Castanedo, María López-Rubio, Amparo Fabra, María José Generalitat Valenciana European Commission Agencia Estatal de Investigación (España) Ministerio de Ciencia, Innovación y Universidades (España) Absorbent pads Aerogels Cryogels Food preservation Hemp cellulose food preservation This study presents a circular economy approach utilizing hemp stems and rice straw, typically perceived as low-value agricultural waste, to develop a sustainable alternative to traditional plastic absorbent pads for food packaging. The development of an active material was achieved through the utilization of hemp cellulose and a bioactive extract isolated from rice straw. In addition to reducing plastic pollution, this material demonstrates the potential to enhance food preservation. This research provides evidence of the benefits of repurposing agricultural by-products to create valuable and environmentally-friendly products. Hemp cellulose was extracted, characterized, and processed to develop stable aerogels and cryogels through supercritical CO2 drying and freeze-drying. The water stability and internal structure of the materials were guided via TEMPO-mediated oxidation and high-pressure homogenization. Both materials showed versatile physicochemical and mechanical properties. Nevertheless, with higher water sorption (2.20 mL/g), minimal dimensional changes, and lower shrinkage, cryogels were suitable for meat absorbent pad application. To enhance the cryogels functionality, they were impregnated with a rice straw bioactive extract in two different concentrations. The incorporation of the extract did not affect the structure of the cryogels, improved their mechanical properties and the antioxidant activity remained stable after drying (63.89–78.96 %). Finally, the performance of the developed materials was compared to commercial plastic pads and pristine meat preservation challenge test during 9 days at refrigeration conditions. The incorporation of rice straw extract improved meat color preservation. While moderate extract concentrations (75 mg/g) showed a protective effect against lipid oxidation, higher levels (187.5 mg/g) induced pro-oxidant reactions. This research highlights the potential of hemp cellulose-based cryogels as sustainable and functional packaging materials for meat products. Grants PID2020-112766RB-C22, PID2023-146557OB-C22 and PCI2024-153409 funded by MICIU/AEI/10.13039/501100011033 and, by ERDF A way of making Europe. Laura Cabrera-Villamizar acknowledges financial support from the Generalitat Valenciana for the award of a Santiago Grisolía grant (GRISOLIA/2021/050). The Accreditation as Center of Excellence Severo Ochoa CEX2021-001189-S funded by MCIU/AEI/10.13039/501100011033 is also fully acknowledged. With funding from the Spanish government through the ‘Severo Ochoa Centre of Excellence’ accreditation (CEX2021-001189-S) Peer reviewed 2024-11-14T08:46:42Z 2024-11-14T08:46:42Z 2024-10-19 artículo Publisher's version Carbohydrate Polymers 348: 122887 (2025) 0144-8617 CEX2021-001189-S http://hdl.handle.net/10261/371798 10.1016/j.carbpol.2024.122887 2-s2.0-85207293212 https://api.elsevier.com/content/abstract/scopus_id/85207293212 en #PLACEHOLDER_PARENT_METADATA_VALUE# #PLACEHOLDER_PARENT_METADATA_VALUE# info:eu-repo/grantAgreement/AEI/Plan Estatal de Investigación Científica y Técnica y de Innovación 2017-2020/PID2020-112766RB-C22/ES/DISEÑO, PROCESADO Y CARACTERIZACION DE ESTRUCTURAS INNOVADORAS DE ENVASADO ACTIVO Y COMPOSTABLE BASADOS EN BIOPOLIESTER/ info:eu-repo/grantAgreement/AEI/Plan Estatal de Investigación Científica y Técnica y de Innovación 2021-2023/PID2023-146557OB-C22 Carbohydrate Polymers The underlying dataset has been published as supplementary material of the article in the publisher platform at https://doi.org/10.1016/j.carbpol.2024.122887 https://doi.org/10.1016/j.carbpol.2024.122887 Sí open application/pdf Elsevier |