Nanoscale electrohydrodynamic ion transport: Influences of channel geometry and polarization-induced surface charges
Electrohydrodynamic ion transport has been studied in nanotubes, nanoslits, and
nanopores to mimic the advanced functionalities of biological ion channels. However …
nanopores to mimic the advanced functionalities of biological ion channels. However …
Nanoscale electrohydrodynamic ion transport: Influences of channel geometry and polarization-induced surface charges.
A Paul, NR Aluru - Physical review. E, 2024 - europepmc.org
Electrohydrodynamic ion transport has been studied in nanotubes, nanoslits, and
nanopores to mimic the advanced functionalities of biological ion channels. However …
nanopores to mimic the advanced functionalities of biological ion channels. However …
Nanoscale electrohydrodynamic ion transport: Influences of channel geometry and polarization-induced surface charges
A Paul, NR Aluru - Physical Review E, 2024 - ui.adsabs.harvard.edu
Electrohydrodynamic ion transport has been studied in nanotubes, nanoslits, and
nanopores to mimic the advanced functionalities of biological ion channels. However …
nanopores to mimic the advanced functionalities of biological ion channels. However …
Nanoscale electrohydrodynamic ion transport: Influences of channel geometry and polarization-induced surface charges
A Paul, NR Aluru - Physical review. E, 2024 - pubmed.ncbi.nlm.nih.gov
Electrohydrodynamic ion transport has been studied in nanotubes, nanoslits, and
nanopores to mimic the advanced functionalities of biological ion channels. However …
nanopores to mimic the advanced functionalities of biological ion channels. However …
[引用][C] Nanoscale electrohydrodynamic ion transport: Influences of channel geometry and polarization-induced surface charges
A Paul, NR Aluru - Physical Review E, 2024 - par.nsf.gov