Add to ORKGUnderstanding cell interaction with one-dimensional nanomaterials, including nanotubes, nanowires, nanofibers, filamentous bacteria, and certain nanoparticle chains, has fundamental importance to many applications such as biomedical diagnostics, therapeutics, and nanotoxicity. Here, we show that cell uptake of one-dimensional nanomaterials via receptor-mediated endocytosis is dominated by a single dimensionless parameter that scales with the membrane tension and radius of the nanomaterial and inversely with the membrane bending stiffness. It is shown that as cell membrane internalizes one-dimensional nanomaterials, the uptake follows a near-perpendicular entry mode at small membrane tension but it switches to a near-parallel interaction mod...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Materials with high aspect ratio, such as carbon nanotubes and asbestos fibres, have been shown to c...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Engineered nanomaterials are known to enter human cells, often via active endocytosis. Mechanistic d...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Materials with high aspect ratio, such as carbon nanotubes and asbestos fibres, have been shown to c...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Engineered nanomaterials are known to enter human cells, often via active endocytosis. Mechanistic d...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Nanoparticles are small objects in the scale of nanometres (a billionth of a metre), used for a wide...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...
Nano-sized materials have great potential as drug carriers for nanomedicine applications. Thanks to ...