The technology for binding of DNA fragments onto
the applied magnetic nanoparticle surface does not require use of any hazardous chaotropic buffers.
Not exact matches
The
magnetic nanoparticles are excited by the
applied field and begin to get hot, heating and potentially destroying the surrounding cancer tissue.
«This group has solved the key impasse that has arrested the development of
magnetic nanotherapies, that is, the weak response of the
nanoparticle to the
applied magnetic field,» she says.
When an external
magnetic field was
applied to the tissues, the
nanoparticles warmed up the samples from within.
Anikeeva and colleagues found similar results when they waited a month before
applying the
magnetic stimulation, suggesting that the
nanoparticles endured in place.
After outfitting the
nanoparticles with their molecular assistants and engineering the cell membranes to receive the
nanoparticles, the team
applied a solution of
nanoparticles to the cell cultures and switched on a
magnetic field.
The group has demonstrated previously that DNA - assembly methods can be
applied to optical,
magnetic, and catalytic
nanoparticles as well, and will likely yield the long - sought novel optical and mechanical materials scientists have envisioned.
Yet the broken
nanoparticles chains will re-form if the temperature is raised, the oil liquefies and an external
magnetic field is
applied to the particles.
CeO2
Nanoparticles Dispersion Nanomaterials are being
applied across a wide range of high - tech industries and advanced technologies due to their excellent optical,
magnetic, catalytic and electronic properties.