Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Fungal Nanotechnologies (FN) 1 and 2 provide updated and comprehensive information that deals with the green and sustainable production of metal- and organic-based nanostructures by various fungal species. Additionally, intracellular and extracellular mechanisms will be investigated, as well as fungal nanotechnology applications in the biomedical, environmental, and agri-food sectors. FN is still in its infant stage; therefore, many studies should be focused on this area. Plants, animal and humans will benefit greatly from this, and efficient and ecologically friendly approaches should be created.

Technology: general issues --- aflatoxins --- Aspergillus section Flavi --- chitosan --- nanocomposites --- fungal nanotechnology --- Trichoderma spp. --- ZnO nanoparticles --- antibacterial activity Xanthomonas oryzae pv. oryzae --- co-cultivation --- secondary metabolites --- biotransformation --- biomineralization --- metal oxide nanoparticles --- nanoparticle dissolution --- nanoparticle mobility --- fungal leaching --- ecotoxicity --- nanomaterial --- nanosensors --- phytopathogens --- zinc --- endophytic bacteria --- silver nanoparticles --- Magnaporthe oryzae --- antifungal activity --- oyster mushroom --- application --- antibacterial --- anticancer --- antioxidant --- nanohybrids --- polymer-metal composites --- antifungal --- postharvest --- Fusarium --- synthesis --- nanoparticles --- mechanism --- medicine --- agriculture --- nanofactory --- toxicity --- copper (I) iodide --- composites --- atomic force microscopy --- Vicia faba --- plant disease --- root rot --- R. solani --- Se-NPs --- nano-biosynthesis --- plant promotion --- metal oxides --- nano-fungicides --- pathogenic fungi --- protein profiling --- radical scavenging activity --- resistance --- homeostasis --- fungal–metal interaction --- lichen --- green synthesis --- eco-friendly --- antimicrobial --- MgO-NPs --- optimization --- mosquitocidal and repellence activity --- tannery effluents --- chromium ion --- nanoantifungal --- mycotoxin degradation --- theragnostic --- veterinary --- n/a --- bamboo --- Ag/TiO2 --- visible light photoactivity --- energy storage --- fungal-metal interaction

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Fungal Nanotechnologies (FN) 1 and 2 provide updated and comprehensive information that deals with the green and sustainable production of metal- and organic-based nanostructures by various fungal species. Additionally, intracellular and extracellular mechanisms will be investigated, as well as fungal nanotechnology applications in the biomedical, environmental, and agri-food sectors. FN is still in its infant stage; therefore, many studies should be focused on this area. Plants, animal and humans will benefit greatly from this, and efficient and ecologically friendly approaches should be created.

Technology: general issues --- aflatoxins --- Aspergillus section Flavi --- chitosan --- nanocomposites --- fungal nanotechnology --- Trichoderma spp. --- ZnO nanoparticles --- antibacterial activity Xanthomonas oryzae pv. oryzae --- co-cultivation --- secondary metabolites --- biotransformation --- biomineralization --- metal oxide nanoparticles --- nanoparticle dissolution --- nanoparticle mobility --- fungal leaching --- ecotoxicity --- nanomaterial --- nanosensors --- phytopathogens --- zinc --- endophytic bacteria --- silver nanoparticles --- Magnaporthe oryzae --- antifungal activity --- oyster mushroom --- application --- antibacterial --- anticancer --- antioxidant --- nanohybrids --- polymer-metal composites --- antifungal --- postharvest --- Fusarium --- synthesis --- nanoparticles --- mechanism --- medicine --- agriculture --- nanofactory --- toxicity --- copper (I) iodide --- composites --- atomic force microscopy --- Vicia faba --- plant disease --- root rot --- R. solani --- Se-NPs --- nano-biosynthesis --- plant promotion --- metal oxides --- nano-fungicides --- pathogenic fungi --- protein profiling --- radical scavenging activity --- resistance --- homeostasis --- fungal-metal interaction --- lichen --- green synthesis --- eco-friendly --- antimicrobial --- MgO-NPs --- optimization --- mosquitocidal and repellence activity --- tannery effluents --- chromium ion --- nanoantifungal --- mycotoxin degradation --- theragnostic --- veterinary --- bamboo --- Ag/TiO2 --- visible light photoactivity --- energy storage