Bioplastic Production Using Natural Extracts with Cellulose Assisted by Experimental and Computational Screening

Bioplastic Production Using Natural Extracts with Cellulose Assisted by Experimental and Computational Screening

The increasing demand for sustainable and environmentally friendly materials has prompted intensive research into developing bioplastics as viable alternatives to conventional petroleum-derived plastics. Here, we report a novel approach to bioplastic production by employing plant extract-based solve...

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Main Authors: Lizbeth Zamora-Mendoza, Jhonny Caicho, José R. Mora, Daniela Negrete-Bolagay, Victor H. Guerrero, Noroska G. S. Mogollón, Melanie Ochoa-Ocampo, Jefferson Pastuña-Fasso, José F. Álvarez Barreto, Sebastián Ponce, Juan Paredes, Henry Erazo, Patricia I. Pontón, Marco León, Frank Alexis
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Molecules
Subjects:
bioplastic
cellulose
natural dissolvent
plant extract
Online Access:https://www.mdpi.com/1420-3049/30/13/2752
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Summary:The increasing demand for sustainable and environmentally friendly materials has prompted intensive research into developing bioplastics as viable alternatives to conventional petroleum-derived plastics. Here, we report a novel approach to bioplastic production by employing plant extract-based solvents to partially dissolve cellulose, a fundamental biopolymer precursor. Using plant-derived solvents addresses concerns surrounding the environmental impact of traditional solvent-based processes, as per the principles of green chemistry. Using computational screening, some natural products were identified from the integrated database resource MEGx. Six natural sources were selected based on their molecular weight, high pKa, and chemical classification. Thin-layer chromatography (TLC) and column chromatography confirmed the presence of molecules in the extracts. Bioplastics were prepared with 1, 3, 6, 10, and 15 wt.% plant extract concentrations. Control samples without conventional dissolved and positive controls were also studied to compare their properties with novel bioplastics. Chemical characterization and biodegradability tests were performed. Degradation in water and soil tests for 35 days showed that the biodegradability of the bioplastics with natural extracts at higher concentrations was faster than that of the control samples. By day 35, bioplastics containing 15 wt.% of the D1 W extract showed rapid degradation, with higher weight loss compared with the conventional controls. The positive control (C4), containing NaOH and glycerol, degraded more slowly than the plant extract-based formulations. Also, the test indicated that the natural dissolvent’s influence on the water uptake of the material produced a better performance than the control samples. The surfaces of the bioplastic formulations were analyzed using a scanning electron microscope (SEM) at different magnifications. The findings presented here hold promise for advancing the field of bioplastics and contributing to the sustainable utilization of plant resources for eco-friendly material production.
ISSN:1420-3049

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