Internalization kinetics and cytoplasmic localization of functionalized diatomite nanoparticles in cancer cells by Raman imaging
S Managò, N Migliaccio, M Terracciano… - Journal of …, 2018 - Wiley Online Library
Porous biosilica nanoparticles obtained from diatomites (DNPs) have been recently
demonstrated to be nontoxic nanovectors of therapeutic agents in cancer cells. In this work …
demonstrated to be nontoxic nanovectors of therapeutic agents in cancer cells. In this work …
Internalization kinetics and cytoplasmic localization of functionalized diatomite nanoparticles in cancer cells by Raman imaging
S Managò, N Migliaccio… - Journal of …, 2018 - pubmed.ncbi.nlm.nih.gov
Porous biosilica nanoparticles obtained from diatomites (DNPs) have been recently
demonstrated to be non-toxic nanovectors of therapeutic agents in cancer cells. In this work …
demonstrated to be non-toxic nanovectors of therapeutic agents in cancer cells. In this work …
Internalization kinetics and cytoplasmic localization of functionalized diatomite nanoparticles in cancer cells by Raman imaging.
S Managò, N Migliaccio, M Terracciano… - Journal of …, 2017 - europepmc.org
Porous biosilica nanoparticles obtained from diatomites (DNPs) have been recently
demonstrated to be non-toxic nanovectors of therapeutic agents in cancer cells. In this work …
demonstrated to be non-toxic nanovectors of therapeutic agents in cancer cells. In this work …
Internalization kinetics and cytoplasmic localization of functionalized diatomite nanoparticles in cancer cells by Raman imaging
S Managò, N Migliaccio, M Terracciano… - JOURNAL OF …, 2018 - iris.unina.it
Porous biosilica nanoparticles obtained from diatomites (DNPs) have been recently
demonstrated to be non-toxic nanovectors of therapeutic agents in cancer cells. In this work …
demonstrated to be non-toxic nanovectors of therapeutic agents in cancer cells. In this work …
[PDF][PDF] Internalization kinetics and cytoplasmic localization of functionalized diatomite nanoparticles in cancer cells by Raman imaging
S Managò, N Migliaccio, M Terracciano, M Napolitano… - researchgate.net
Nanomedicine represents a promising strategy for the development of new cancer
treatments. Due to their nanoscale size, nanocarriers can target specifically tumor cells and …
treatments. Due to their nanoscale size, nanocarriers can target specifically tumor cells and …