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Papers
20 resultsShowing papers similar to Valorization of Biopolymers in Sustainable Material Development
ClearBiopolymers as renewable polymeric materials for sustainable development - an overview
This review examines biopolymers as renewable polymer materials for sustainable development, covering starch-, cellulose-, bacteria-, soy-, and natural polyester-based biopolymers, their applications, and their potential to replace conventional synthetic plastics derived from fossil resources.
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.
Recent Advances in Biopolymers for Biomedical and Packaging Applications
This review examines recent advances in biopolymers -- including polysaccharides, proteins, and synthetic biopolymers -- for applications in biomedical and packaging fields. The authors highlight the appeal of biopolymers as sustainable, biodegradable, and biocompatible alternatives to conventional petroleum-based materials.
Bio-Based Materials for Packaging
This review evaluates bio-based materials as sustainable alternatives for plastic packaging, examining the environmental performance, mechanical properties, and commercial viability of biopolymers in addressing the global plastic pollution crisis.
Role of microalgae as a sustainable alternative of biopolymers and its application in industries
Not a microplastics paper — this review examines the potential of algae-derived biopolymers (such as alginate, carrageenan, and polyhydroxyalkanoates) as biodegradable, eco-friendly replacements for petroleum-based plastics, highlighting their advantages but noting challenges for large-scale production.
Design 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.
Microbial-Derived Biopolymers: A Pathway to Sustainable Civil Engineering
This review examines microbial-derived biopolymers and their potential applications in civil engineering as sustainable alternatives to conventional materials. Researchers surveyed the types of biopolymers available, their properties, and current uses in construction and infrastructure. The study suggests that these nature-friendly materials could help reduce dependence on petroleum-based plastics and contribute to sustainable development goals, though their adoption in civil engineering remains limited.
Exploring biopolymer degradation: Environmental effects and future insights
This review examines how biopolymers degrade in the environment and evaluates their potential as sustainable alternatives to conventional plastics. While biopolymers offer environmental benefits like reduced pollution, the study notes challenges including slower-than-expected degradation in natural settings, potential microplastic generation, and the need for better standardized testing and supportive policies.
Applications of Biopolymers in Bioengineering: A Comprehensive Review
This comprehensive review covers the wide range of biopolymers — natural, biodegradable polymers from living organisms — and their applications in bioengineering, including drug delivery, tissue engineering, and packaging. Biopolymers are presented as sustainable alternatives to petroleum-based plastics that could help reduce microplastic generation.
Multifunctional Application of Biopolymers and Biomaterials
This paper is not about microplastics; it is a broad review of multifunctional applications of biopolymers and biomaterials across medicine, packaging, and engineering.
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
A review of recent innovations in biopolymer-based materials for various applications assessed how bio-derived polymers are being developed to reduce reliance on fossil-fuel plastics. The transition to biopolymers is relevant to reducing the long-term sources of microplastic pollution.
Microalgae as a Source of Biopolymer - A Comprehensive Review
This review examines microalgae as a source of biopolymers for sustainable plastic alternatives, evaluating the potential of algae-derived materials to address the environmental and health harms caused by conventional plastic waste and microplastic pollution through biodegradable substitutes.
Microbial Biopolymers: From Production to Environmental Applications—A Review
This review summarizes how biopolymers made by bacteria, fungi, and algae can serve as eco-friendly replacements for synthetic plastics in applications like wastewater treatment and soil cleanup. These natural materials can filter, absorb, and break down pollutants, offering a sustainable alternative to conventional methods. The research is relevant to the microplastics problem because replacing synthetic polymers with biodegradable ones could reduce plastic pollution 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.
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.
Biopolymer-based solutions for enhanced safety and quality assurance: A review
Researchers review how biopolymers are replacing petroleum-based plastics across the food industry, covering antimicrobial packaging, edible coatings, bioactive encapsulation, and smart polymer functions such as pH sensing and time-temperature monitoring that reduce food waste and microplastic pollution.
Emerging Bio-Based Polymers from Lab to Market: Current Strategies, Market Dynamics and Research Trends
This review explores the growing market for bio-based polymers, which are plastics made from renewable biological sources rather than petroleum. These materials are designed to be compostable and biodegradable, addressing public concern about plastic waste and microplastic pollution. While promising, the review notes that challenges remain in making bio-based plastics durable and cost-competitive enough to replace conventional plastics at scale.
Overcoming Challenges in the Commercialization of Biopolymers: From Research to Applications—A Review
This review examines the barriers preventing biopolymers from reaching commercial markets despite growing research interest. Researchers explored how fiber properties and processing conditions affect biodegradability, and how biopolymers can be manufactured on existing equipment. The study highlights biopolymers as a promising alternative to conventional plastics that could help reduce microplastic accumulation in the environment.
An Overview on Wood Waste Valorization as Biopolymers and Biocomposites: Definition, Classification, Production, Properties and Applications
This review examines how wood waste can be converted into biopolymers and biocomposites as alternatives to conventional fossil-derived plastics. Researchers discuss the classification, production methods, and properties of these bio-based materials, highlighting their potential to reduce plastic pollution and environmental harm. The study notes that while wood waste-derived bioplastics show promise, processing methods and scalability are still under development.
Towards the Sustainability of the Plastic Industry through Biopolymers: Properties and Potential Applications to the Textiles World
This review explored the potential of biopolymers as sustainable alternatives to petroleum-based plastics in the textile industry, covering applications in spinning, dyeing, and finishing processes to reduce microplastic pollution from synthetic textiles.