International audienceHybrid silica-organic nanohelices are used to organize a large variety of nonchiral small organic molecules or inorganic anions to nanometer-sized assemblies. Such chiral organization of achiral molecules induces chiroptical properties as detected by vibrational or electronic circular dichroism (CD), as well as from circularly polarized luminescence (CPL)
Nanocorrals created by scanning probe lithography on covalently modified graphite surfaces are used ...
The morphological transformation from microspheres to helical supramolecular nanofibers with control...
Transfer of molecular chirality to supramolecular chirality at nanoscale and microscale by chemical ...
International audienceHybrid silica-organic nanohelices are used to organize a large variety of nonc...
Hybrid silica-organic nanohelices are used to organize a large variety of nonchiral small organic mo...
International audienceCircularly polarized luminescence (CPL) can be generated either from fluoresce...
Chirality is becoming increasingly important in the design of organic materials with functional prop...
In this paper, chiral intermediate phases composed of two achiral molecules are fabricated by utiliz...
We here report a molecule with chiral recognition capability by a mechanism of complexation-induced ...
Synthesis of chiral inorganic or hybrid nanomaterials through sol-gel transcription of chiral organi...
Circularly polarized (CP) light has shown great potential in quantum computing, optical communicatio...
Constructing artificial helical structures through hierarchical self-assembly and exploring the unde...
Chirality, familiar to all chemists, is usually applied to molecules or assemblies of molecules and ...
The acquisition of strong chiroptical activity has revolutionized the field of plasmonics, granting ...
The self-assembly of a chiral perylene bisimide bichromophoric derivative possessing a 1,1′-binaphth...
Nanocorrals created by scanning probe lithography on covalently modified graphite surfaces are used ...
The morphological transformation from microspheres to helical supramolecular nanofibers with control...
Transfer of molecular chirality to supramolecular chirality at nanoscale and microscale by chemical ...
International audienceHybrid silica-organic nanohelices are used to organize a large variety of nonc...
Hybrid silica-organic nanohelices are used to organize a large variety of nonchiral small organic mo...
International audienceCircularly polarized luminescence (CPL) can be generated either from fluoresce...
Chirality is becoming increasingly important in the design of organic materials with functional prop...
In this paper, chiral intermediate phases composed of two achiral molecules are fabricated by utiliz...
We here report a molecule with chiral recognition capability by a mechanism of complexation-induced ...
Synthesis of chiral inorganic or hybrid nanomaterials through sol-gel transcription of chiral organi...
Circularly polarized (CP) light has shown great potential in quantum computing, optical communicatio...
Constructing artificial helical structures through hierarchical self-assembly and exploring the unde...
Chirality, familiar to all chemists, is usually applied to molecules or assemblies of molecules and ...
The acquisition of strong chiroptical activity has revolutionized the field of plasmonics, granting ...
The self-assembly of a chiral perylene bisimide bichromophoric derivative possessing a 1,1′-binaphth...
Nanocorrals created by scanning probe lithography on covalently modified graphite surfaces are used ...
The morphological transformation from microspheres to helical supramolecular nanofibers with control...
Transfer of molecular chirality to supramolecular chirality at nanoscale and microscale by chemical ...