Add to ORKGWe propose a new method of chiral separation using functionalized nanoporous graphene as an example. Computational simulations based on density functional theory show that the attachment of a suitable chiral "bouncer" molecule to the pore rim prevents the passage of the undesired enantiomer while letting its mirror image through
Nanocorrals created by scanning probe lithography on covalently modified graphite surfaces are used ...
Chiral templating and enantioselective separations are demonstrated on graphene surfaces as directed...
The adsorption of chiral molecules in surface-confined chiral porous networks shows pronounced selec...
We propose a new method of chiral separation using functionalized nanoporous graphene as an example....
Graphene has demonstrated broad applications due to its prominent properties. Its molecular structur...
In this article, we will review and highlight some recent computational work on enantioselective ads...
In this study molecular modeling is used to investigate the transfer of chirality from the molecular...
The separation of molecules with similar size and shape is an important technological challenge. For...
As a basic characteristic of the natural environment and living matter, chirality has been used in v...
Over the last few years, the number of investigations dealing with emergence of chirality and chiral...
Chirality is a fascinating property present in naturally occurring and artificial molecules and mate...
As a basic characteristic of the natural environment and living matter, chirality has been used in v...
The chiral-selective formation of 1D polymers from a prochiral molecule, namely, 6,12-dibromochrysen...
This article is part of the themed collection: 2020 Chemical Science HOT Article Collection.Fine man...
We propose a new route to hydrogen isotope separation which exploits the quantum sieving effect in t...
Nanocorrals created by scanning probe lithography on covalently modified graphite surfaces are used ...
Chiral templating and enantioselective separations are demonstrated on graphene surfaces as directed...
The adsorption of chiral molecules in surface-confined chiral porous networks shows pronounced selec...
We propose a new method of chiral separation using functionalized nanoporous graphene as an example....
Graphene has demonstrated broad applications due to its prominent properties. Its molecular structur...
In this article, we will review and highlight some recent computational work on enantioselective ads...
In this study molecular modeling is used to investigate the transfer of chirality from the molecular...
The separation of molecules with similar size and shape is an important technological challenge. For...
As a basic characteristic of the natural environment and living matter, chirality has been used in v...
Over the last few years, the number of investigations dealing with emergence of chirality and chiral...
Chirality is a fascinating property present in naturally occurring and artificial molecules and mate...
As a basic characteristic of the natural environment and living matter, chirality has been used in v...
The chiral-selective formation of 1D polymers from a prochiral molecule, namely, 6,12-dibromochrysen...
This article is part of the themed collection: 2020 Chemical Science HOT Article Collection.Fine man...
We propose a new route to hydrogen isotope separation which exploits the quantum sieving effect in t...
Nanocorrals created by scanning probe lithography on covalently modified graphite surfaces are used ...
Chiral templating and enantioselective separations are demonstrated on graphene surfaces as directed...
The adsorption of chiral molecules in surface-confined chiral porous networks shows pronounced selec...