The controlled transport of molecular and ionic substrates across bilayer membranes is a fundamental task for the operation of living organisms. It is also a highly fascinating and demanding challenge for artificial molecular machines. The recent report of a synthetic transmembrane molecular shuttle that can transport potassium ions selectively down a gradient in a liposomal system makes a small but significant step towards this goal
In recent decades, small molecules have been widely applied to the generation of functional ion tran...
Controlled translocation of molecules and ions across lipid membranes is the basis of numerous biolo...
AbstractThree amphiphilic cobalt-cage congeners bearing a diaza-crown bridge and varying alkyl chain...
The controlled transport of molecular and ionic substrates across bilayer membranes is a fundamental...
Inspired by natural biomolecular machines, synthetic molecular-level machines have been proven to pe...
Ion transport across lipid membranes in biology is controlled by stimuli-responsive membrane channel...
The ion-coupled processes that occur in the plasma membrane regulate the cell machineries in all the...
Membranes play an enormous role in our life. Biological cell membranes control the fluxes of substan...
L'objectif de ce travail de recherche est l'étude du transport des ions et des molécules d'eau à tra...
Living cells are usually surrounded by lipid bilayers, which exhibit remarkable structural variety. ...
The transport of substrates is one of the main tasks of biomolecular machines in living organisms. W...
Cell membranes coordinate a large variety of biological processes by selectively recognising and res...
In nature, biological machines can perform sophisticated and subtle functions to maintain the metabo...
The objective of this work is the study of the transport through lipid membranes of water and ions u...
International audienceA hydrophobic light-driven rotary motor is functionalized with two 18-crown-6 ...
In recent decades, small molecules have been widely applied to the generation of functional ion tran...
Controlled translocation of molecules and ions across lipid membranes is the basis of numerous biolo...
AbstractThree amphiphilic cobalt-cage congeners bearing a diaza-crown bridge and varying alkyl chain...
The controlled transport of molecular and ionic substrates across bilayer membranes is a fundamental...
Inspired by natural biomolecular machines, synthetic molecular-level machines have been proven to pe...
Ion transport across lipid membranes in biology is controlled by stimuli-responsive membrane channel...
The ion-coupled processes that occur in the plasma membrane regulate the cell machineries in all the...
Membranes play an enormous role in our life. Biological cell membranes control the fluxes of substan...
L'objectif de ce travail de recherche est l'étude du transport des ions et des molécules d'eau à tra...
Living cells are usually surrounded by lipid bilayers, which exhibit remarkable structural variety. ...
The transport of substrates is one of the main tasks of biomolecular machines in living organisms. W...
Cell membranes coordinate a large variety of biological processes by selectively recognising and res...
In nature, biological machines can perform sophisticated and subtle functions to maintain the metabo...
The objective of this work is the study of the transport through lipid membranes of water and ions u...
International audienceA hydrophobic light-driven rotary motor is functionalized with two 18-crown-6 ...
In recent decades, small molecules have been widely applied to the generation of functional ion tran...
Controlled translocation of molecules and ions across lipid membranes is the basis of numerous biolo...
AbstractThree amphiphilic cobalt-cage congeners bearing a diaza-crown bridge and varying alkyl chain...