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Papers
20 resultsShowing papers similar to Drinking Straw from Coconut Leaf: A Study of its Epicuticular Wax Content and Phenol Extrusion Properties
ClearProduction of Cost-Effective Biodegradable Straw
Researchers developed a biodegradable drinking straw made from natural, chemical-free materials as an alternative to plastic straws. Plastic straws are a common source of single-use plastic pollution and potential microplastic generation in marine environments.
Bio-based alternatives to plastic drinking straws: are they more environmentally benign and consumer preferred?
This study evaluated bio-based alternatives to conventional plastic drinking straws, assessing the environmental footprint of paper and polylactic acid straws versus plastic and comparing their functional properties including user experience.
Microplastic and adhesive free, multifunctional, circular economy approach-based biomass-derived drinking straws
Researchers developed drinking straws made from rice straw waste that are free of microplastics and adhesives. The study suggests these bio-based straws are water-stable, heat-resistant, antibacterial, and biodegradable, with a dramatically lower carbon footprint than metal or polylactic acid alternatives, turning agricultural waste into a useful consumer product.
A hydrophobic and degradable straw based on the ethyl cellulose-coated bacterial cellulose
Researchers developed a hydrophobic and biodegradable straw made from ethyl cellulose-coated bacterial cellulose as a microplastic-free alternative to conventional disposable plastic straws. The cellulose-based straw achieved the hydrophobicity needed for beverage use while remaining biodegradable, offering a sustainable substitute that avoids microplastic shedding during use and disposal.
Strong, anti-swelling, and biodegradable seaweed-based straws with surface mineralized CaCO3 armor
Drawing on the structural design of bones and sea urchins, researchers developed seaweed-based drinking straws coated with calcium carbonate that showed strong water resistance and mechanical performance as a plastic-free alternative.
Ultrastrong, Hydrostable, and Degradable Straws Derived from Microplastic-Free Thermoset Films for Sustainable Development
Researchers developed strong, moisture-stable drinking straws from all-natural thermoset materials derived from plant-based resins, demonstrating that the resulting straws are microplastic-free, fully biodegradable, and mechanically superior to paper straws which collapse in beverages.
Evaluation of paper straws versus plastic straws: Development of a methodology for testing and understanding challenges for paper straws
This study developed a methodology for testing the performance of paper straws as alternatives to plastic straws, evaluating their structural integrity, taste neutrality, and environmental impact under realistic use conditions. The work addresses the need for objective evaluation of plastic straw alternatives as regulations drive substitution away from single-use plastics.
A Preliminary Evaluation on the Development of Edible Drinking Straw from Guso (Eucheuma cottonii) Seaweeds
Researchers developed edible drinking straws from Guso seaweed (Eucheuma cottonii) with different plasticizer concentrations and evaluated their biodegradability, strength, and water resistance. Replacing single-use plastic straws with edible, biodegradable alternatives reduces the plastic waste that enters aquatic environments and eventually fragments into microplastics.
All-natural, hydrophobic, biodegradable cellulose-based straws through simultaneous esterification and filling with stearic acid for cold beverages
Researchers developed a biodegradable, all-natural straw made from bleached bamboo fibers and stearic acid as an alternative to plastic straws that generate microplastics. The straw achieved strong hydrophobicity, worked well in cold beverages including tea, coffee, and milk, and fully degraded in soil within 50 days. The study offers a promising green alternative that avoids both the microplastic pollution from plastic straws and the chemical additives used in conventional paper straws.
Influence of Plastic and Coconut Shell (Cocos nucifera L.) on the Physico-Mechanical Properties of the 8/6 Composite Rafter
Researchers tested composite building materials made from waste plastic and coconut shell as an alternative to conventional wooden rafters in construction. Using plastic waste as a binding material in construction provides a potential pathway for diverting plastic waste from the environment while reducing demand for timber.
A Review on Edible Straws
This review examines edible straws as a biodegradable alternative to single-use plastic straws, synthesizing research on their material compositions, structural performance, sensory properties, and alignment with global sustainability goals to reduce microplastic accumulation from disposable plastic products.
Plastic Cutlery Alternative: Case Study with Biodegradable Spoons
Researchers produced biodegradable spoons from natural materials as an alternative to plastic cutlery, evaluating their texture, antioxidant activity, and polyphenol content to assess feasibility as an environmentally friendly disposable option.
An Innovative Alternative to Plastic Straws with Bacterial Cellulose
This study developed biodegradable bacterial cellulose as an alternative material for drinking straws, replacing conventional plastic. Bacterial cellulose straws are fully biodegradable, offering a practical solution to reduce the single-use plastic that fragments into microplastics in the environment.
Environmental Properties of Coconut Fiber/Reinforced Thermoplastic Starch/Beeswax Hybrid Composites
This study developed biodegradable composite materials from thermoplastic starch, beeswax, and coconut fiber as an alternative to conventional plastic. Bio-based composites that replace petroleum-derived plastics help reduce the sources of microplastic pollution in soil and water.
The Unique Morphology of Coconut Petiole Fibers Facilitates the Fabrication of Plant Composites with High Impact Performance
This paper is not relevant to microplastics; it investigates the mechanical and structural properties of coconut petiole fiber composites with polylactic acid (PLA) for manufacturing applications.
All-natural, hydrophobic, strong paper straws based on biodegradable composite coatings
Researchers developed an all-natural paper straw coated with a biodegradable mixture of sodium alginate, cellulose nanofibers, and stearic acid that avoids the microplastic problem of traditional plastic-coated straws. The coating made the straws water-resistant for over three hours while maintaining good strength, and the straws fully biodegraded in soil within about 45 days. The study offers a practical alternative to plastic straws that does not contribute to microplastic pollution during breakdown.
Edible Straws as Promising Biodegradable Alternatives to Single-Use Plastics: A Comprehensive Review
Single-use plastic straws are a small but symbolic part of the microplastics problem, and this review surveys research into edible straws as a biodegradable alternative, covering materials ranging from cassava starch and seaweed to cellulose and proteins. Lab results are promising — cellulose-based versions show good strength, seaweed-based ones biodegrade quickly, and life cycle analyses confirm ecological advantages over plastic — but challenges including high production costs, short shelf life, and lack of regulatory standards are holding back commercial adoption. The review concludes that realizing the potential of edible straws will require coordination across material science, food engineering, and policy.
Evaluation and future development direction of paper straw and plastic straw
This review evaluates the environmental trade-offs of replacing plastic straws with paper straws, examining lifecycle impacts, material properties, and waste management outcomes. The authors find that while paper straws reduce persistent plastic pollution, their production and disposal also carry environmental costs, and that neither option is entirely without impact.
Investigating interface adhesion of PLA-coated cellulose paper straws: Degradation, plant growth effects, and life cycle assessment
Researchers developed polylactic acid-coated cellulose paper straws as an alternative to single-use plastic straws and evaluated their environmental impact. The straws decomposed 35-40% within 4 months in soil and compost, though microplastics were detected in surrounding soil and plant tissues. Life cycle assessment showed that the manufacturing improvements reduced the ecological footprint compared to conventional plastic straws, though the release of microplastics during degradation warrants further study.
An ethyl cellulose-coated bacterial cellulose based hydrophobic and degradable straw-like materials towards drinking straws
Researchers developed a microplastic-free drinking straw by coating bacterial cellulose with ethyl cellulose, achieving strong mechanical performance (66.82 MPa bending strength), water-repellent surfaces, and complete soil biodegradation within 20 days — outperforming conventional polylactic acid straws on both durability and environmental decomposition.