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Papers
20 resultsShowing papers similar to Recent innovations in the developments of biopolymer-based materials for the removal of micro- and nanoplastics: A review of performance, critical factors, practicability and knowledge gaps
ClearDesign of new biopolymers for biomedicine and food-packaging
Researchers review new biopolymer designs intended for biomedical and food packaging applications, aiming to replace fossil-fuel-based plastics with biodegradable alternatives from renewable sources. Widespread adoption of such materials could significantly reduce long-term microplastic pollution.
Advancements in the biopolymer films for food packaging applications: a short review
This review covers advances in biodegradable biopolymer films being developed to replace conventional plastic food packaging, which breaks down into microplastics that contaminate soil and water. While these plant-based alternatives show promise for reducing microplastic pollution, they still need improvements in strength and durability before they can compete with conventional plastics at commercial scale.
Recent Preparations and Innovations in the Biodegradable Bioplastics and Biocomposites (A Review)
This review covered recent advances in biodegradable bioplastics and biocomposites as alternatives to petroleum-based plastics, including their preparation methods, properties, and environmental performance. The authors noted that while bioplastics reduce reliance on fossil fuels and potentially decrease microplastic persistence, production costs and performance limitations remain barriers.
Assessing Recent Technologies for Addressing Microplastic Pollution and Pushing the Case of Bioremediation as an Attractive Approach
This review assesses current technologies for addressing microplastic pollution, with a focus on bioremediation as a sustainable alternative. Researchers compared physical, chemical, and biological approaches and found that microbial degradation offers distinct advantages in terms of environmental compatibility and cost-effectiveness. The study advocates for increased investment in bioremediation research as a practical strategy for managing microplastic contamination at scale.
A critical review of microplastics and nanoplastics in wastewater: Insights into adsorbent-based remediation strategies
This review analyzes research on removing microplastics and nanoplastics from water using materials that absorb the particles, finding that adsorption is the most widely studied removal method. Carbon-based and metal-based materials currently dominate the research, but plant-based (biopolymer) adsorbents are gaining attention because they are biodegradable and non-toxic. Better removal technologies are critical because conventional water treatment often fails to capture the smallest plastic particles that pose the greatest risk to human health.
Emerging biotechnological and eco-remediation strategies for the biodegradation and removal of micro/nanoplastics from the environment: A comprehensive review
Researchers reviewed emerging biotechnological and eco-remediation strategies for removing micro- and nanoplastics from the environment, synthesizing advances in synthetic microbial consortia, enzyme-mediated depolymerization, phytoremediation, and green nanomaterials while highlighting key analytical and field-implementation challenges.
Understanding bioplastic materials - current state and trends
This review summarizes the current state of bioplastic materials, examining their properties, applications, and potential as alternatives to conventional petroleum-based plastics that contribute to environmental pollution. The authors assess both the promise and limitations of bioplastics in reducing the global plastic waste crisis.
Challenges and opportunities in bioremediation of micro-nano plastics: A review.
This review examines biological approaches to removing micro- and nanoplastics from the environment, focusing on microbial degradation and bioremediation strategies. While bioremediation holds promise, challenges remain in identifying microbes capable of degrading common plastic types and scaling these processes for practical environmental cleanup.
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.
Performance Spectrum of Home-Compostable Biopolymer Fibers Compared to a Petrochemical Alternative
Researchers compared home-compostable biopolymer fibers to conventional petrochemical alternatives, evaluating their mechanical performance and degradability to assess whether biobased materials can serve as viable substitutes that reduce microplastic pollution.
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.
Eco-Solutions to Microplastic Pollution: Advances in Bioremediation Technologies
This review surveys bioremediation technologies, including microbial and plant-based approaches, as potential solutions for removing microplastics from the environment. Researchers highlight promising organisms and enzymatic pathways while noting that practical, scalable applications remain in early development.
Critical review of microplastics removal from the environment
This review evaluates technologies for removing microplastics from the environment, including physical methods like filtration, chemical treatments, and biological approaches using microorganisms. Each method has trade-offs between effectiveness, cost, and scalability, and no single technology can solve the problem alone. The authors emphasize that reducing human exposure to microplastics requires combining better removal technologies with policies that limit plastic production and waste at the source.
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.
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.
Toward the review on sustainable elimination of microplastics: Materials, strategies, and advantages
This review evaluates sustainable approaches for removing microplastics using natural materials — including sponges, gels, enzymes, and microorganisms — comparing their mechanisms, efficiencies, and advantages over conventional chemical removal methods.
Innovations in the Development of Promising Adsorbents for the Remediation of Microplastics and Nanoplastics – A Critical Review
This review evaluates innovative materials being developed to remove microplastics and nanoplastics from polluted water, including carbon-based, metal, polymer, and mineral adsorbents. Researchers compared the effectiveness, advantages, and limitations of each type, finding that adsorption-based approaches show strong promise. The study highlights remaining challenges such as scaling these technologies for real-world water treatment applications.
Sustainable coagulative removal of microplastic from aquatic systems: recent progress and outlook
This review examines how natural coagulants from plants, animals, and microbes can be used to remove microplastics from water as a greener alternative to conventional chemical treatments. These bio-based coagulants, especially when combined with nanotechnology, show promising removal rates while avoiding the toxic residues left by traditional chemical approaches.
Bioplastics: potential substitution to fossil-based plastics
This review examines bioplastics as potential substitutes for fossil-based plastics in the context of marine plastic pollution abatement, discussing biodegradable and decomposable plastic innovations alongside resource recovery strategies and circular economy approaches to plastic waste management.
Microplastics in Ecosystems: From Current Trends to Bio-Based Removal Strategies
This review examines current trends in microplastic contamination across ecosystems and evaluates bio-based removal strategies as alternatives to conventional wastewater treatment, which fails to fully capture small microplastic particles. The authors assess the potential of biological approaches including biofilms, fungi, and microorganisms to degrade or capture microplastics as part of integrated pollution management.