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61,005 resultsShowing papers similar to Sorbitol-Based Biodegradable Plastics from Rubberized Cassava Starch and Tofu Dregs Starch
ClearDevelopment of sago-based edible plastic as primary packaging for instant food products
Researchers developed a sago-based edible plastic as primary packaging for instant food products as a sustainable alternative to conventional plastics that contribute to microplastic pollution. The bio-based packaging was designed to be safe for food contact and to reduce the accumulation of persistent plastic waste in ecosystems.
Valorization of Biopolymers in Sustainable Material Development
This research evaluates the potential of biopolymers such as polysaccharides, proteins, and microbial polymers as sustainable alternatives to petroleum-based plastics. The study highlights how conventional plastics contribute to microplastic contamination in biological systems and examines how biopolymer valorization could help address ecological degradation from persistent plastic waste.
Biodegradable trays made from Poraqueiba serícea Tulasne seed starch and Zea Mays cob flour
Not relevant to microplastics — this paper develops biodegradable food trays from Amazonian seed starch and corn cob flour as an alternative to petrochemical packaging, without addressing microplastic pollution.
Development of Biodegradable Rigid Foams from Pineapple Field Waste
Not relevant to microplastics — this paper develops biodegradable rigid foam materials from pineapple agricultural waste (starch and cellulose) as a sustainable packaging alternative to petroleum-based plastics.
Sprayable starch films for agricultural mulching
This study developed biodegradable cassava starch films sprayed directly onto agricultural soil as a plastic-free alternative to conventional plastic mulch films. Replacing plastic agricultural mulches with biodegradable alternatives could significantly reduce the microplastic contamination accumulating in farmland soil.
Valorization of agro-industrial waste from the cassava industry as esterified cellulose butyrate for polyhydroxybutyrate-based biocomposites
This study produced biodegradable biocomposites from cassava pulp microcrystalline cellulose and in-house synthesized polyhydroxybutyrate (PHB) biopolymer. The cassava agro-industrial waste-based materials offer a sustainable alternative to petroleum-based plastics for packaging applications, with the potential to reduce environmental microplastic accumulation.
Upcycling waste tempura flake-derived starch powder as an environment-friendly polymer matrix filler for thermoplastic starch compounds
Not relevant to microplastics — this study upcycles starch powder from restaurant waste tempura flakes as a filler for thermoplastic starch, finding it decreases tensile strength but increases elongation, with potential as a low-cost, food-waste-derived material additive.
Starch/Pectin as Emerging Renewable Materials for Fabrication of Sustainable Bioplastics for Food Packaging Applications
Not relevant to microplastics — this paper describes the development of biodegradable food packaging films made from plant-based starch, pectin, and chitosan, focused on replacing conventional plastics rather than studying their pollution.
Analysis of the microplastic emission potential of a starch-based biodegradable plastic material
Researchers developed a method to assess the microplastic emission potential of biodegradable starch-based plastics under environmental conditions, finding that even materials labeled biodegradable can fragment into persistent microplastic particles depending on environmental degradation pathways.
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.
A Review of Potency of Cassava Peel Waste and Seaweed Carrageenan as Environmentally Friendly Bioplastic
This Indonesian review examines the potential of cassava peel waste and seaweed carrageenan as raw materials for making biodegradable bioplastics. Replacing conventional plastic packaging with plant-based alternatives could reduce the microplastic particles that accumulate in soil and water from degrading conventional plastics.
Prospective Biodegradable Plastics from Biomass Conversion Processes
This review surveys the potential of plant biomass as a source of biodegradable plastic alternatives, covering different types of bioplastics and their production processes. Replacing petroleum-based plastics with biodegradable bio-based materials would significantly reduce persistent microplastic pollution.
A review of biodegradable thermoplastic starches, their blends and composites: recent developments and opportunities for single-use plastic packaging alternatives
This review analyzed how different plasticizers, compatibilizers, and essential oils affect biodegradable thermoplastic starch blends and composites. The study suggests these materials offer promising alternatives to single-use plastic packaging, highlighting recent developments in improving their mechanical and barrier properties.
Biomimetic Design of Biodegradable Polymer Films for Sustainable Food Packaging: Integrating Indigenous Material Wisdom with Modern Chemistry
This paper is not primarily about microplastic pollution; it describes the development of biodegradable food packaging films from biopolymers like chitosan and alginate as a sustainable alternative to petroleum-based plastics, with the goal of preventing microplastic generation at the source rather than studying existing contamination.
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.
Preliminary Investigation of Bioplastics from Durian Seed Starch Recovery Using PEG 400 for Reducing Marine Debris
Researchers developed a bioplastic from durian seed starch combined with polyethylene glycol as a plasticizer, aiming to produce a marine-debris-reducing alternative to conventional plastic. Biodegradable starch-based plastics could help reduce persistent plastic waste entering ocean environments.
Bio-based and Sustainable Food Packaging Technology: Relevance, Challenges and Prospects
A review assessed bio-based and sustainable food packaging technologies, evaluating their relevance as replacements for conventional plastic packaging that generates microplastic pollution. The study identifies the most promising materials and the barriers to scaling up plastic-free food packaging.
Introduction to Starch-Based Bioplastics
This review introduces starch-based bioplastics as a sustainable alternative to conventional fossil fuel-derived plastics, examining the composition and properties of starch polymers. The study discusses how starch-based materials could help address microplastic pollution concerns associated with traditional plastics, though challenges remain in improving their mechanical strength and moisture resistance.
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.
Food packaging Bio-based plastics: Properties, Renewable Biomass resources, Synthesis, and Applications
This review covers bio-based plastics made from renewable biomass sources as alternatives to petroleum-based packaging, aiming to reduce plastic pollution and extend food shelf life. While bio-based plastics can reduce environmental impact at end of life, their behavior after disposal and whether they generate microplastics still requires careful evaluation.
Development of Biodegradable Films from Carrot, Guava, and Banana Peel Fibers for Environmental Packaging Applications
Despite its classification in this database, this study develops biodegradable packaging films from fruit and vegetable fibers rather than investigating microplastic pollution directly. Films made from 60% guava fiber with 1.8% alginate showed the best mechanical properties and highest soil degradation rate, offering a potential alternative to conventional plastic packaging.
Biodegradable Packaging : a Key to Environmental Sustainability
This paper reviews biodegradable packaging alternatives to conventional plastics, arguing that plant-based materials can reduce microplastic pollution in oceans, soil, and food systems. The authors survey available materials and manufacturing methods as part of a broader case for environmental sustainability.
Exploring banana peels as a renewable source for bioplastic development
Despite its title referencing bioplastics, this paper studies the development of biodegradable films made from banana peel waste and corn starch — not microplastic pollution. It examines mechanical properties and biodegradability of these food-packaging alternatives, and while reducing conventional plastic use is relevant to microplastic prevention, the paper itself does not study microplastics.
Synthesis and Production of Chemically Modified Bio-Based Adhesive from Cassava Root for Sustainable Industrial Applications
Despite its title referencing bio-based adhesive from cassava root, this paper studies the structural and performance properties of chemically modified starch as an alternative to synthetic glues — not microplastic pollution. It examines moisture resistance, bonding strength, and biodegradability for packaging and construction applications and is not relevant to microplastics or human health.