ABSTRACT
The particular chemical-physical properties of nanomaterials make them exploitable in different fields of application. Nanoparticles represent fundamental instruments for medicine and biology, because they can be used for biomedical applications (diagnosis, therapy, theranostics, etc.). However, their development with therapeutic efficacy requires in-depth knowledge of the interactions with cells, for both improving their efficiency use and to reduce its toxic effect. Physics and mathematical modelling help in understanding the diffusion mechanisms of charges.
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