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Papers
61,005 resultsShowing papers similar to Lignocellulose-Based Materials for Food Packaging: A Biorefinery Perspective
ClearBio-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.
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.
A Review on Replacing Food Packaging Plastics with Nature-Inspired Bio-Based Materials
Researchers reviewed bio-based materials inspired by nature as sustainable alternatives to petroleum-based food packaging plastics. The study highlights that while conventional plastic packaging is effective for food preservation, its environmental impact has driven research into biodegradable and compostable alternatives that could reduce plastic waste and microplastic generation.
Materials
This paper reviews advances in nanocomposite and biopolymer-based food packaging materials, noting that microplastic pollution has been detected globally and is a recognized threat to ecosystem and human health. It briefly contextualises microplastics as a motivation for developing biodegradable packaging alternatives, though the primary focus is materials science rather than microplastics research per se.
Advances in Cellulose-Based Packaging Films for Food Products
This review covers recent advances in cellulose-based packaging films as sustainable alternatives to petroleum-based plastics, examining how different cellulose structures and derivatives enable versatile film properties for food packaging applications.
Renewable cellulosic nanocomposites for food packaging to avoid fossil fuel plastic pollution: a review
Researchers reviewed how cellulose nanoparticles extracted from plant biomass can replace petroleum-based plastics in food packaging, finding that adding just 1–5% cellulose nanoparticles significantly improves strength, reduces oxygen and water vapor permeability, and keeps packaging biodegradable. The review positions cellulose nanocomposites as a scalable, eco-friendly alternative to fossil-fuel plastics that contribute to microplastic pollution.
Cellulose Nanopaper: A Study of Composition and Surface Modifications to Develop Sustainably-Sourced Alternatives to Plastics
This study developed cellulose nanopaper — derived from wood pulp — with surface modifications to improve its properties as a sustainable alternative to petroleum-based plastic packaging films. The research addresses the need for biodegradable packaging materials that reduce the plastic waste that becomes microplastic contamination.
Nanocellulose Bio-Based Composites for Food Packaging
This review explores the use of nanocellulose-based bio-composites as sustainable alternatives to synthetic plastic packaging in the food industry. Researchers found that nanocellulose materials offer improved mechanical strength, barrier properties, and biodegradability compared to conventional plastics. The study highlights how these plant-derived materials could help reduce plastic packaging waste while maintaining food quality and safety standards.
Nanocellulose as Sustainable Bio-Nanomaterial for Packaging and Biomedical Applications
This review examines the potential of nanocellulose, a material derived from plant fibers, as a sustainable alternative to conventional plastics in packaging and biomedical applications. Researchers found that nanocellulose can provide effective moisture and gas barriers when used in paper-based packaging, reducing the need for plastic coatings. The study highlights nanocellulose as a biodegradable, renewable material that could help address both plastic waste and food preservation challenges.
Comprehensive overview of sustainable food packaging material alternatives
This review provides a comprehensive overview of alternative packaging materials being developed to replace conventional plastics, including biodegradable plastics, cellulose, bamboo, edible packaging, and nano-cellulose. Researchers found that recycling plastics and producing bioplastics have not yet proven to be fully effective solutions, and the environmental impact of many alternatives remains unclear. The study notes that while no single alternative can fully replace plastic packaging, emerging materials show promise for reducing environmental impact and waste.
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.
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.
Lignin-driven valorization of lignocellulosic biomass to functional biochar for advanced wastewater remediation: A review
A study explored how lignin-derived materials from lignocellulosic biomass can be valorized into functional products as a sustainable alternative to petroleum-based plastics. Expanding bio-based alternatives is a key strategy for reducing the production of plastics that eventually become environmental microplastic pollutants.
Development and Characterization of Thermoformed Bilayer Trays of Paper and Renewable Succinic Acid Derived Biopolyester Blends and Their Application to Preserve Fresh Pasta
This paper is not about microplastics; it describes the development of sustainable bilayer food-packaging trays made from paper and bio-based biopolyester blends as alternatives to conventional plastic packaging.
Nanocellulose Coating on Kraft Paper
This paper is not directly about microplastics — it evaluates nanofibrillated cellulose coatings on kraft paper as a biodegradable alternative to plastic-based food packaging coatings, finding improvements in barrier properties, density, and mechanical strength.
Recent Advances in Chemically Modified Cellulose and Its Derivatives for Food Packaging Applications: A Review
This review examined recent advances in chemically modified cellulose and its derivatives for food packaging applications, highlighting how cellulose-based biodegradable materials can replace petroleum-based plastics while discussing challenges in moisture barrier and mechanical properties.
Research progress of biomass-based food packaging materials
This review examines biomass-based food packaging materials — including starch, cellulose, proteins, and chitosan — as renewable and biodegradable alternatives to petroleum-based packaging, discussing development strategies to address current shortcomings in environmental performance, food safety, and functional diversity in the context of growing global microplastic pollution from packaging.
Lignocellulosic biomass from agricultural waste to the circular economy: a review with focus on biofuels, biocomposites and bioplastics
This review examines how agricultural waste rich in lignocellulose can be converted into biofuels, biocomposites, and bioplastics as sustainable alternatives to petroleum-based products. Recent advances in biorefinery technology have improved the ability to process plant-based waste into a range of useful materials. Replacing conventional plastics with bioplastics from agricultural waste could help reduce both plastic pollution and greenhouse gas emissions.
A Review on Biopolymer-Based Biodegradable Film for Food Packaging: Trends over the Last Decade and Future Research
This systematic review explores biodegradable packaging made from natural materials like starch and proteins as alternatives to conventional plastics. Reducing plastic packaging is important because traditional plastics break down into microplastics that contaminate food and the environment.
Evaluation of Possible Contaminants from Sustainable Materials Intended for Food Contact
This paper has limited direct relevance to microplastics; it evaluates chemical contaminants that can migrate from sustainable natural-material food packaging into food and beverages, though its focus is on bio-based packaging alternatives rather than plastic particle pollution.
Lignocellulosic Agricultural Waste Valorization to Obtain Valuable Products: An Overview
This review covers methods for turning agricultural plant waste into valuable products like biofuels, bioplastics, and animal feed. While not directly about microplastics, it is relevant because developing bioplastics from plant waste could reduce dependence on petroleum-based plastics that break down into microplastics. These sustainable alternatives could help decrease the amount of microplastic pollution entering the environment and food chain.
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.
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.
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.