Add to ORKGHigh quality magnetic nanoparticles (MNPs) are used in applications such as electronic data storage. Current methods for synthesising the consistent MNPs required use high temperatures, harsh chemicals and bespoke equipment. As this is energy intensive, expensive and not very environmentally friendly, cheaper and „greener‟ alternatives are being sought. Mms6 is a biomineralisation protein from a magnetic bacterium (Magnetospirillum magneticum AMB-1), which is able to biotemplate the formation of uniform cubo-octahedral magnetite nanoparticles in vitro under mild reaction conditions. The N-terminal section is hydrophobic, and may cause the protein to self-assemble in aqueous solution. This self-assembly may facilitate the biotemplating abili...
Biological macromolecules are utilized in low-temperature synthetic methods to exert precise control...
Green synthesis of precise inorganic nanomaterials is a major challenge. Magnetotactic bacteria biom...
Formation of magnetite nanocrystals by magn eto-tactic bacteria is controlled by specificproteins wh...
Rapid advancements made in technology, and the drive towards miniaturisation, means that we require ...
Nanotechnology demands the synthesis of highly precise, functional materials, tailored for specific ...
The synthesis of magnetic nanoparticles has long been an area of active research. Magnetic nanoparti...
Controlling the morphology of magnetic nanoparticles and their spatial arrangement is crucial for ma...
Magnetotactic bacteria are able to synthesise precise nanoparticles of the iron oxide magnetite with...
The literature on the magnetosome membrane (MM) protein, magnetosome membrane specific6 (Mms6), is ...
The role of magnetosome associated proteins on the in vitro synthesis of magnetite nanoparticles has...
Magnetic nanoparticles (MNP) comprised of magnetite are fast gaining interest in the scientific rese...
A common feature of biomineralization proteins is their self-assembly to produce a surface consisten...
The creation of magnetite particles by magnetotactic bacteria has been of great interest for a numbe...
A common feature of biomineralization proteins is their self-assembly to produce a surface consisten...
High quality magnetite crystals have previously been synthesized in a pluronic medium using a biomin...
Biological macromolecules are utilized in low-temperature synthetic methods to exert precise control...
Green synthesis of precise inorganic nanomaterials is a major challenge. Magnetotactic bacteria biom...
Formation of magnetite nanocrystals by magn eto-tactic bacteria is controlled by specificproteins wh...
Rapid advancements made in technology, and the drive towards miniaturisation, means that we require ...
Nanotechnology demands the synthesis of highly precise, functional materials, tailored for specific ...
The synthesis of magnetic nanoparticles has long been an area of active research. Magnetic nanoparti...
Controlling the morphology of magnetic nanoparticles and their spatial arrangement is crucial for ma...
Magnetotactic bacteria are able to synthesise precise nanoparticles of the iron oxide magnetite with...
The literature on the magnetosome membrane (MM) protein, magnetosome membrane specific6 (Mms6), is ...
The role of magnetosome associated proteins on the in vitro synthesis of magnetite nanoparticles has...
Magnetic nanoparticles (MNP) comprised of magnetite are fast gaining interest in the scientific rese...
A common feature of biomineralization proteins is their self-assembly to produce a surface consisten...
The creation of magnetite particles by magnetotactic bacteria has been of great interest for a numbe...
A common feature of biomineralization proteins is their self-assembly to produce a surface consisten...
High quality magnetite crystals have previously been synthesized in a pluronic medium using a biomin...
Biological macromolecules are utilized in low-temperature synthetic methods to exert precise control...
Green synthesis of precise inorganic nanomaterials is a major challenge. Magnetotactic bacteria biom...
Formation of magnetite nanocrystals by magn eto-tactic bacteria is controlled by specificproteins wh...