Add to ORKGA long-standing aim in molecular self-assembly is the development of synthetic nanopores capable of mimicking the mass-transport characteristics of biological channels and pores. Here we report a strategy for enforcing the nanotubular assembly of rigid macrocycles in both the solid state and solution based on the interplay of multiple hydrogen-bonding and aromatic π − π stacking interactions. The resultant nanotubes have modifiable surfaces and inner pores of a uniform diameter defined by the constituent macrocycles. The self-assembling hydrophobic nanopores can mediate not only highly selective transmembrane ion transport, unprecedented for a synthetic nanopore, but also highly efficient transmembrane water permeability. These results esta...
International audienceFundamental understanding of ionic transport at the nanoscale is essential for...
Bioinspired artificial water channels aim to combine the high permeability and selectivity of biolog...
AbstractA cylindrical transmembrane molecule is constructed by linking hydrophobic sites selected fr...
A long-standing aim in molecular self-assembly is the development of synthetic nanopores capable of ...
Hydrophobic interactions normally are not considered a major driving force for self-assembling in a ...
Nanoscopic pores in biological systems – cells, for example – are responsible for regulating the tra...
The nuclear pore complex is a nanoscale assembly that achieves shuttle-cargo transport of biomolecul...
A detailed characterization of the physics of novel nanopore systems has the potential to revolution...
Biological nanopores are an essential element to the success of the lipid bilayer that makes life po...
A series of rigid amphiphilic oligocholate macrocycles were synthesized and their pore formation in ...
The field of solid-state nanopores and nanochannels has grown exponentially in the past five years. ...
We demonstrate the spontaneous and reversible transition between the two- and three-dimensional self...
Reproducing the structure and function of biological membrane channels, synthetic nanopores have bee...
Recently developed synthetic membrane pores composed of folded DNA enrich the current range of natur...
Water molecules confined to pores with sub-nanometre diameters form single-file hydrogen-bonded chai...
International audienceFundamental understanding of ionic transport at the nanoscale is essential for...
Bioinspired artificial water channels aim to combine the high permeability and selectivity of biolog...
AbstractA cylindrical transmembrane molecule is constructed by linking hydrophobic sites selected fr...
A long-standing aim in molecular self-assembly is the development of synthetic nanopores capable of ...
Hydrophobic interactions normally are not considered a major driving force for self-assembling in a ...
Nanoscopic pores in biological systems – cells, for example – are responsible for regulating the tra...
The nuclear pore complex is a nanoscale assembly that achieves shuttle-cargo transport of biomolecul...
A detailed characterization of the physics of novel nanopore systems has the potential to revolution...
Biological nanopores are an essential element to the success of the lipid bilayer that makes life po...
A series of rigid amphiphilic oligocholate macrocycles were synthesized and their pore formation in ...
The field of solid-state nanopores and nanochannels has grown exponentially in the past five years. ...
We demonstrate the spontaneous and reversible transition between the two- and three-dimensional self...
Reproducing the structure and function of biological membrane channels, synthetic nanopores have bee...
Recently developed synthetic membrane pores composed of folded DNA enrich the current range of natur...
Water molecules confined to pores with sub-nanometre diameters form single-file hydrogen-bonded chai...
International audienceFundamental understanding of ionic transport at the nanoscale is essential for...
Bioinspired artificial water channels aim to combine the high permeability and selectivity of biolog...
AbstractA cylindrical transmembrane molecule is constructed by linking hydrophobic sites selected fr...