Research Keyword: alginate

Applications of Natural Polymers in the Grapevine Industry: Plant Protection and Value-Added Utilization of Waste

mycolabadmin

Grapevines face significant challenges from drought, extreme temperatures, and fungal diseases. Natural polymers like chitosan, alginate, and cellulose can create protective coatings on grapes that help them retain water, resist pests, and stay healthy. Additionally, waste from grape processing can be recycled into valuable compounds and encapsulated in these polymers for use as plant strengtheners or in food and pharmaceuticals, creating a more sustainable wine industry.

Read More »

Hybrid nanoencapsulation systems: integrating natural polymers with synthetic nanomaterials for enhanced delivery of bioactive compounds in functional foods

mycolabadmin

Hybrid nanoencapsulation systems combine natural polymers with synthetic nanomaterials to better protect and deliver beneficial compounds in functional foods. These systems improve the stability and absorption of nutrients like vitamins, antioxidants, and probiotics that would otherwise break down during processing or digestion. Various manufacturing methods such as electrospinning and self-assembly enable precise control of particle size and release, making functional foods more effective for health benefits.

Read More »

Use of Limestone Sludge in the Preparation of ɩ-Carrageenan/Alginate-Based Films

mycolabadmin

Researchers have developed a method to convert limestone waste from stone quarries into a useful material for making biodegradable plastic films. By dissolving limestone in acid to extract calcium ions, they created a crosslinking solution that strengthens films made from seaweed-derived compounds like alginate and carrageenan. These films show promise as environmentally-friendly alternatives to conventional plastic packaging while helping solve industrial waste problems.

Read More »

Extrusion-based additive manufacturing of fungal-based composite materials using the tinder fungus Fomes fomentarius

mycolabadmin

Scientists have developed a way to 3D print objects using mushroom mycelium (the thread-like structure of fungi) mixed with seaweed-derived alginate. These lightweight, spongy printed objects are biodegradable and have properties similar to polystyrene foam, but are made from renewable resources. This breakthrough could eventually replace plastic foam in packaging and other applications with an eco-friendly fungal alternative.

Read More »
Scroll to Top