Research Keyword: nanoparticle therapy

Algal pigments: Therapeutic potential and food applications

mycolabadmin

Colorful algae contain powerful natural compounds that can help treat serious health problems like cancer, diabetes, and obesity. Scientists are using special nano-technology to deliver these algal compounds more effectively in medicines. Algae-based pigments like chlorophyll and carotenoids are already used in supplements and healthy foods to boost overall wellness. These compounds also help maintain a healthy gut and reduce inflammation in the body.

Read More »

Green-Synthesized Nanomaterials from Edible and Medicinal Mushrooms: A Sustainable Strategy Against Antimicrobial Resistance

mycolabadmin

Scientists are developing a new weapon against antibiotic-resistant bacteria using mushrooms. These special nanoparticles derived from edible and medicinal mushrooms can kill harmful bacteria in multiple ways without the toxic chemicals used in traditional manufacturing. The nanoparticles work by disrupting bacterial membranes, creating harmful molecules called free radicals, and even boosting your body’s natural immune response. This environmentally friendly approach could become an important tool in fighting dangerous infections that don’t respond to current antibiotics.

Read More »

Phylogeny of Aspergillus section Circumdati and inhibition of ochratoxins potential by green synthesised ZnO nanoparticles

mycolabadmin

This research studied yellow-colored fungal species that contaminate crops and can produce harmful toxins called ochratoxins. Scientists identified four different species of these fungi and found that tiny zinc oxide particles made from plant extract could reduce toxin production. The study shows promise for using these nanoparticles to protect food and agricultural products from fungal contamination.

Read More »

Green Synthesized Copper-Oxide Nanoparticles Exhibit Antifungal Activity Against Botrytis cinerea, the Causal Agent of the Gray Mold Disease

mycolabadmin

Scientists have developed tiny copper particles using environmentally friendly methods with beneficial fungi to fight gray mold, a devastating disease in vineyards and crops. These green-synthesized nanoparticles were more effective at stopping the fungus than commercial fungicides currently in use. The research shows this approach could be a sustainable alternative that reduces harmful chemicals used in agriculture while protecting crops more effectively.

Read More »

Synthesis of zinc oxide nanoparticles using Trichoderma harzianum and its bio-efficacy on Alternaria brassicae

mycolabadmin

Scientists have developed an eco-friendly way to create zinc oxide nanoparticles using a beneficial fungus called Trichoderma harzianum. These nanoparticles effectively kill Alternaria brassicae, a fungus that damages mustard crops and can reduce yields by up to 57%. The nanoparticles work better and at lower doses than traditional chemical fungicides, making them a promising sustainable solution for farmers. This represents an important advancement in protecting crops without harming the environment.

Read More »

Phylogeny of Aspergillus section Circumdati and inhibition of ochratoxins potential by green synthesised ZnO nanoparticles

mycolabadmin

Researchers identified four species of Aspergillus fungus that contaminate crops and produce poisonous compounds called ochratoxins. They found that specially made zinc oxide nanoparticles, created using an environmentally friendly method with basil extract, can significantly reduce the amount of ochratoxins produced by these fungi. This discovery could help protect agricultural products from contamination and improve food safety.

Read More »

Application of Nanocomposites-Based Polymers on Managing Fungal Diseases in Crop Production

mycolabadmin

Scientists are developing tiny particles made from natural materials like chitosan to protect crops from fungal diseases. These nanoparticles work better than traditional fungicides and can be combined with metals or plant extracts to boost their effectiveness. The new approach is more environmentally friendly and can reduce crop loss caused by fungal infections while maintaining sustainable agricultural practices.

Read More »
Scroll to Top