Add to ORKG<span style="color: rgb(51, 51, 51); font-family: arial, helvetica, sans-serif; font-size: 13px; line-height: 22px; background-color: rgb(248, 248, 248);">Novel transport phenomena through nanopores are expected to emerge as their diameters approach subnanometer scales. However, it has been challenging to explore such a regime experimentally. Here, this study reports on polymer subnanometer pores exhibiting unique selective ionic transport. 12 mu m long, parallel oriented polymer nanopores are fabricated in polyethylene terephthalate (PET) films by irradiation with GeV heavy ions and subsequent 3 h exposure to UV radiation. These nanopores show ionic transport selectivity spanning more than 6 orders of magnitude: the order of the transport ...
Ionic current transport and nanopores go hand in hand. Ionic current has been used to investigate pr...
Solid-state nanopores have been widely employed in the detection of biomolecules, but low signal-to-...
Creating switchable and gradually tunable pores or channels that display transport control similar t...
Novel transport phenomena through nanopores are expected to emerge as their diameters approach subna...
The great potential of nanoporous membranes for water filtration and chemical separation has been ch...
Nanopores exhibit behaviors not seen in the micro-scale, such as ion current rectification or ion se...
International audienceIn the area of nanopore technology, detection methods are based on the recorde...
Selective binding of metal ions to their receptors at the cell membranes is essential for immune rea...
This thesis is focused on the potential applications of ion track-etched nanopores in polymeric memb...
International audienceFundamental understanding of ionic transport at the nanoscale is essential for...
Selective ion exclusion from charged nanopores in track-etched membranes allows separation of ions w...
Rectifying nanopores feature ion currents that are higher for voltages of one polarity compared to t...
A detailed characterization of the physics of novel nanopore systems has the potential to revolution...
Ionic current transport and nanopores go hand in hand. Ionic current has been used to investigate pr...
Solid-state nanopores have been widely employed in the detection of biomolecules, but low signal-to-...
Creating switchable and gradually tunable pores or channels that display transport control similar t...
Novel transport phenomena through nanopores are expected to emerge as their diameters approach subna...
The great potential of nanoporous membranes for water filtration and chemical separation has been ch...
Nanopores exhibit behaviors not seen in the micro-scale, such as ion current rectification or ion se...
International audienceIn the area of nanopore technology, detection methods are based on the recorde...
Selective binding of metal ions to their receptors at the cell membranes is essential for immune rea...
This thesis is focused on the potential applications of ion track-etched nanopores in polymeric memb...
International audienceFundamental understanding of ionic transport at the nanoscale is essential for...
Selective ion exclusion from charged nanopores in track-etched membranes allows separation of ions w...
Rectifying nanopores feature ion currents that are higher for voltages of one polarity compared to t...
A detailed characterization of the physics of novel nanopore systems has the potential to revolution...
Ionic current transport and nanopores go hand in hand. Ionic current has been used to investigate pr...
Solid-state nanopores have been widely employed in the detection of biomolecules, but low signal-to-...
Creating switchable and gradually tunable pores or channels that display transport control similar t...