Nanodemers, which are synthetically synthesized from graphite at high pressures and temperatures, are used in diagnosis and nanomedicine. However, a pure nanodiamond can not be used for this purpose, so its crystal grating must first be damaged in order to cause specific optical readability.
The first Nobel Prize winner. Scientists Allison and Hondo have received it for the development of special cancer treatment
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Damage is most often caused by the irradiation of fast nanonuclear nanotubes in particle accelerators, but this is a costly and not very effective method because it does not allow the production of more material. The team has released a new irradiation method in a nuclear reactor that is cheaper.
They used the way atomized warp atoms decompose in neutron radiation in a light and fast flying helium and lithium reactor that have the same effect of controlled crystal formation as the ions that produce the accelerator.
However, the shower has high density and much more material can be irradiated in the reactor and it is cheaper to make tens of grams of rare nanomaterials at a price of more than a thousand times the radiation in accelerators.
This year's prestigious support was awarded to five young Czech scientists. This is the best result in 10 years
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In addition, the method is not only successful in creating a nanodiamond grid, but also for silicon carbide. According to scientists, it could serve in general at a large scale.
Nanomedicine is defined as monitoring, repair, design and control of the human biological system at the molecular level by nanoscience and nanostructures.
This is a further development stage in the field of molecular medicine and biotechnology. Nanotechnology is generally a matter of queue size orders in nanometers, ten to minus nine meters.