Add to ORKGFungi show a variety of abilities in affecting metal speciation, toxicity, and mobility and mineral formation, dissolution or deterioration through several interacting biomechanical and biochemical mechanisms. A consequence of many metal-mineral interactions is the production of nanoparticles which may be in elemental, mineral or compound forms. Organisms may benefit from such nanomaterial formation through removal of metal toxicity, protection from environmental stress, and their redox properties since certain mycogenic nanoparticles can act as nanozymes mimicking enzymes such as peroxidase. With the development of nanotechnology, there is growing interest in the application of biological systems for nanomaterial production which may provi...
Fungal-mineral interactions can produce large amounts of biogenic nano-size (~1-100 nm) minerals, ye...
Microbe-mineral interactions have shaped the surface of the Earth and impacted the evolution of plan...
Fungal biomineralization of carbonates results in metal removal from solution or immobilization with...
Fungi show a variety of abilities in affecting metal speciation, toxicity, and mobility and mineral ...
To develop a new green approach for biosynthesis of nanoparticles, myconanotechnology has been repre...
In the 21st century, nanomaterials play an increasingly important role in our lives with application...
There is little doubt that nanomaterials will play a key role in many technologies of the future. On...
PubMed ID: 26164702Nanotechnology is an emerging cutting-edge technology, which involves interdiscip...
In order to control microbial resistance against commonly used antibiotics, it is indispensable to d...
There is a great demand for green methods of synthesis of nanoparticles. Fungi play an important rol...
Nanotechnology is the use of extremely small materials that have unique physical and chemical proper...
Nanotechnology is a wide developing area of the biotechnology since the important applications of na...
Fungal-mineral interactions can produce large amounts of biogenic nano-size (~1-100 nm) minerals, ye...
Microbe-mineral interactions have shaped the surface of the Earth and impacted the evolution of plan...
Fungal biomineralization of carbonates results in metal removal from solution or immobilization with...
Fungi show a variety of abilities in affecting metal speciation, toxicity, and mobility and mineral ...
To develop a new green approach for biosynthesis of nanoparticles, myconanotechnology has been repre...
In the 21st century, nanomaterials play an increasingly important role in our lives with application...
There is little doubt that nanomaterials will play a key role in many technologies of the future. On...
PubMed ID: 26164702Nanotechnology is an emerging cutting-edge technology, which involves interdiscip...
In order to control microbial resistance against commonly used antibiotics, it is indispensable to d...
There is a great demand for green methods of synthesis of nanoparticles. Fungi play an important rol...
Nanotechnology is the use of extremely small materials that have unique physical and chemical proper...
Nanotechnology is a wide developing area of the biotechnology since the important applications of na...
Fungal-mineral interactions can produce large amounts of biogenic nano-size (~1-100 nm) minerals, ye...
Microbe-mineral interactions have shaped the surface of the Earth and impacted the evolution of plan...
Fungal biomineralization of carbonates results in metal removal from solution or immobilization with...