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Egyptian Journal of Aquatic Biology and Fisheries
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Zaher, S., Ibrahim, S. (2023). Challenges and opportunities of bioplastics produced from algae. Egyptian Journal of Aquatic Biology and Fisheries, 27(5), 365-386. doi: 10.21608/ejabf.2023.318707
Shymaa Sabry Zaher; Sayed Makawy Ibrahim. "Challenges and opportunities of bioplastics produced from algae". Egyptian Journal of Aquatic Biology and Fisheries, 27, 5, 2023, 365-386. doi: 10.21608/ejabf.2023.318707
Zaher, S., Ibrahim, S. (2023). 'Challenges and opportunities of bioplastics produced from algae', Egyptian Journal of Aquatic Biology and Fisheries, 27(5), pp. 365-386. doi: 10.21608/ejabf.2023.318707
Zaher, S., Ibrahim, S. Challenges and opportunities of bioplastics produced from algae. Egyptian Journal of Aquatic Biology and Fisheries, 2023; 27(5): 365-386. doi: 10.21608/ejabf.2023.318707

Challenges and opportunities of bioplastics produced from algae

Article 24, Volume 27, Issue 5, September and October 2023, Page 365-386  XML PDF (850.82 K)
Document Type: Review articles
DOI: 10.21608/ejabf.2023.318707
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Authors
Shymaa Sabry Zaher; Sayed Makawy Ibrahim
Abstract
The high awareness of the synthetic plastics pollution problem demands more efforts by the scientific community to find an alternative source (bioplastics) to protect our environment and health too. The production source of bioplastics should be plant-based raw materials, and natural polymers like carbohydrates, protein, and others (fatty acids, sugar, disaccharides, etc.). Polyhydroxy butrate (PHB), Polyhydroxy alkanoates (PHA), and starch are the basic compounds produced by algae that enter bioplastic composition. Bioplastics have become essential in various industrial applications such as horticulture, composting bags, hygiene, biomedical, structural, electrical, and other consumer products. The most common algal species used in bioplastics production are Ulva lactuca and Gelidium sesquipedale from macroalgaeplus Chlorella and Spirulina from microalgae. The seaweeds are collected naturally or cultivated while microalgae need cultivation to obtain a high biomass. The most accepted common systems are the open system (raceway) and the closed photobioreactors. The present techniques for microalgal bio-composite include melt mixing, compression molding, hot molding, injection molding, twin screw extrusion and solvent casting. Although algal bioplastics are promising on a laboratory scale large scale faces some challenges including species selection, polymer selection depending on biodegradability, and released products from bioplastic degradation. Further innovative studies using genetic engineering and new biotechnology to produce low-cost bioplastics are opportunities. 
Keywords
Algae; Pollution; Plastic; Bioplastic; microalgae
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