Mammalian cells preferentially internalize hydrogel nanodiscs over nanorods and use shape-specific uptake mechanisms
Size, surface charge, and material compositions are known to influence cell uptake of
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …
Mammalian cells preferentially internalize hydrogel nanodiscs over nanorods and use shape-specific uptake mechanisms
R Agarwal, V Singh, P Jurney, L Shi… - Proceedings of the …, 2013 - pubmed.ncbi.nlm.nih.gov
Size, surface charge, and material compositions are known to influence cell uptake of
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …
Mammalian cells preferentially internalize hydrogel nanodiscs over nanorods and use shape-specific uptake mechanisms
R Agarwal, V Singh, P Jurney, L Shi… - … (Proceedings of the …, 2013 - scholarworks.sjsu.edu
Size, surface charge, and material compositions are known to influence cell uptake of
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …
[PDF][PDF] Mammalian cells preferentially internalize hydrogel nanodiscs over nanorods and use shape-specific uptake mechanisms
R Agarwala, V Singhb, P Jurneyb, L Shib… - PNAS, 2013 - researchgate.net
Size, surface charge, and material compositions are known to influence cell uptake of
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …
Mammalian cells preferentially internalize hydrogel nanodiscs over nanorods and use shape-specific uptake mechanisms
R Agarwal, V Singh, P Jurney, L Shi… - Proceedings of the …, 2013 - cir.nii.ac.jp
抄録< jats: title> Significance</jats: title>< jats: p> Nanoparticles are widely investigated for
intracellular drug delivery and molecular imaging and should be designed to maximize cell …
intracellular drug delivery and molecular imaging and should be designed to maximize cell …
Mammalian cells preferentially internalize hydrogel nanodiscs over nanorods and use shape-specific uptake mechanisms
R Agarwal, V Singh, P Jurney, L Shi… - Proceedings of the …, 2013 - ui.adsabs.harvard.edu
Nanoparticles are widely investigated for intracellular drug delivery and molecular imaging
and should be designed to maximize cell uptake. Here the effects of particle geometry to …
and should be designed to maximize cell uptake. Here the effects of particle geometry to …
[HTML][HTML] Mammalian cells preferentially internalize hydrogel nanodiscs over nanorods and use shape-specific uptake mechanisms
R Agarwal, V Singh, P Jurney, L Shi… - Proceedings of the …, 2013 - ncbi.nlm.nih.gov
Size, surface charge, and material compositions are known to influence cell uptake of
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …
Mammalian cells preferentially internalize hydrogel nanodiscs over nanorods and use shape-specific uptake mechanisms.
R Agarwal, V Singh, P Jurney, L Shi… - Proceedings of the …, 2013 - europepmc.org
Size, surface charge, and material compositions are known to influence cell uptake of
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …
nanoparticles. However, the effect of particle geometry, ie, the interplay between nanoscale …