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Papers
20 resultsShowing papers similar to Synthesize and Applications of Biodegradable Plastics as a Solution for Environmental Pollution Due to Non-Biodegradable Plastics, a Review
ClearPlastic Alternatives: Biodegradable Solutions and Their Real-World Impact
This review examines biodegradable alternatives to conventional plastics, evaluating biopolymers such as polylactic acid, polyhydroxyalkanoates, and starch-based composites for their practical performance, cost-efficiency, and real-world environmental impact as substitutes for petroleum-based plastic packaging.
The Possibility of Using Polylactic Acid and Polyhydroxyalkanoates to Replace the Normal Plastics in Life
This review examines the potential of polylactic acid and polyhydroxyalkanoates as biodegradable replacements for conventional plastics such as polypropylene and polyethylene, evaluating their properties and discussing their capacity to reduce microplastic pollution in major river systems.
Bioplastics and biodegradable plastics: A review of recent advances, feasibility and cleaner production
Researchers systematically reviewed over 280 articles on bioplastics and biodegradable plastics, finding that while polylactic acid and polyhydroxyalkanoates reduce fossil fuel dependence, their higher production costs, lower durability, and tendency to form microplastics when improperly composted remain significant barriers to replacing conventional plastics.
Biodegradable Polymers: The Future of Sustainable Plastic Alternatives
This review examines biodegradable polymers as sustainable alternatives to petroleum-based plastics, evaluating their potential to reduce microplastic pollution and ecological degradation. The authors assess the performance, environmental fate, and scalability of current biodegradable materials, identifying key challenges for widespread adoption across packaging and consumer product applications.
Characterization of biodegradable polymers: A review
This review characterizes three biodegradable polymers — polycaprolactone, polylactic acid, and polybutylene succinate — as potential replacements for conventional plastics. Biodegradable alternatives that fully break down are important for reducing the accumulation of persistent microplastics in soil and aquatic environments.
Bioplastics: Environment-friendly materials and their production technologies
This review analyzes recent developments in bioplastics as an environmentally friendly alternative to conventional plastics, examining raw material sources, production technologies, and biodegradation assessment methods, with special emphasis on polylactic acid (PLA) as the most widely used biodegradable polymer.
Existing Scenario and Environmental Significance of Biodegradable Plastics: A Review for a Sustainable Future
This review examines the current status of biodegradable plastics derived from renewable sources (starch, PLA, PHA), covering production methods, degradation behavior, and their real-world performance as alternatives to petroleum-based plastics in reducing landfill burden and marine microplastic pollution.
Polyhydroxyalkanoate (PHA) Biopolyesters - Emerging and Major Products of Industrial Biotechnology
This review examined polyhydroxyalkanoate biopolyesters as industrially produced biodegradable plastics, covering their microbial biosynthesis, material properties, and commercial applications as sustainable alternatives to conventional petroleum-based plastics.
PHA-Based Bioplastic: a Potential Alternative to Address Microplastic Pollution
This review examines polyhydroxyalkanoate (PHA)-based bioplastics as biodegradable alternatives to petroleum-derived plastics, highlighting their potential to reduce microplastic pollution while discussing challenges in scaling production and improving material properties.
Polyhydroxyalkanoates – Linking Properties, Applications and End-of-life Options
This review presents polyhydroxyalkanoate biopolyesters as a leading class of genuinely biodegradable bioplastics, linking their material properties and diverse applications to end-of-life options while addressing legislative confusion in the broader bioplastics landscape.
Natural and Synthetic Polymers for Biomedical and Environmental Applications
This review covers both natural and synthetic polymers used in biomedical and environmental applications, from drug delivery systems to food packaging. It discusses how biodegradable plastics like polylactic acid are being developed for medical uses, while also noting environmental concerns. Understanding how these polymers behave in the body and environment is relevant to the broader question of how plastic materials interact with human health.
Application of biodegradable plastic and their environmental impacts: A revie
This review examines the environmental impacts of conventional petroleum-based plastics and evaluates biodegradable alternatives made from plant-based and other organic materials. Researchers found that while bioplastics show promise for reducing long-term pollution, their degradation rates vary significantly depending on environmental conditions. The study emphasizes that switching to biodegradable plastics alone is not enough without proper waste management infrastructure.
Poly(hydroxyalkanoates): Production, Applications and End-of-Life Strategies–Life Cycle Assessment Nexus
This review examines the production, applications, and end-of-life strategies for polyhydroxyalkanoates, highlighting their unique ability to biodegrade in marine environments as a promising alternative to petroleum-based plastics.
Biopolymers production from microalgae and cyanobacteria cultivated in wastewater: Recent advances
This review explores how microalgae and cyanobacteria grown in wastewater can produce biodegradable biopolymers as an alternative to conventional plastics. Researchers found that these organisms can manufacture polyhydroxyalkanoates and other bioplastics while simultaneously helping to treat wastewater. The approach offers a promising dual benefit of reducing plastic pollution and creating value from waste streams.
Microplastics and biobased polymers to combat plastics waste
This review covers the health risks of microplastics and examines how biobased polymers like polylactic acid and other plant-derived plastics could help reduce plastic pollution. While these alternatives show promise for replacing conventional plastics, the review notes that some bioplastics still produce microplastics as they break down. The takeaway is that switching to biobased materials is part of the solution, but it will not eliminate microplastic pollution entirely.
Biodegradable Smart Packaging: A Cross-Disciplinary Approach to Combat Plastic Pollution
This review examines biodegradable smart packaging as a cross-disciplinary solution to plastic pollution, discussing materials such as polylactic acid, polyhydroxyalkanoates, and starch-based composites, and exploring how intelligent functionalities can be integrated into environmentally friendly packaging alternatives to replace the 300 million tons of plastic produced annually.
Microalgae as Contributors to Produce Biopolymers
This review examined how microalgae can produce biopolymers as sustainable alternatives to fossil-based plastics, highlighting their potential for generating biodegradable materials like polyhydroxyalkanoates and polysaccharides for packaging and biomedical applications.
Biodegradable Plastics: New Materials and Their Role in Combating Environmental Pollution
This review examined biodegradable plastics — including PLA, PHA, and starch-based materials — as replacements for conventional plastics, evaluating their mechanical properties, biodegradation rates, and environmental benefits. It found biodegradable plastics offer real advantages but face challenges in cost and end-of-life infrastructure.
Bioplastics against Microplastics: Screening of Environmental Bacteria for Bioplastics Production
Researchers screened environmental bacteria for their ability to produce polyhydroxyalkanoate bioplastics, which are biodegradable alternatives to conventional petroleum-based plastics. Developing efficient bioplastic-producing strains is one strategy to reduce the long-term accumulation of persistent microplastics in the environment.
Bioplastic- Futuristic Approach
This review examines bioplastics as a sustainable alternative to petrochemical-based plastics, covering materials derived from biomass such as starch, cellulose, and microbial polymers. The paper surveys the biodegradation properties, production methods, and limitations of current bioplastic technologies as part of a broader strategy to address global plastic pollution.