Add to ORKGThere has been an expanding interest in the photophysical properties of π-conjugated materials owing to their proven potential in the field of organic electronics. Within π-conjugated systems, the electronic interactions between molecules control important functional properties such as photon emission, spectral band shape, lifetime and energy transfer. These properties emanate from different length scales and are intrinsically linked to the nature of molecular arrangement within an aggregate, held by weak non-covalent intermolecular interactions. Strong electronic interactions between molecules promote efficient energy diffusion of optical excitation, while weak interactions make energy hop from site to site. However, in organic electronic ...
The extraordinary semiconducting properties of conjugated organic materials continue to attract atte...
Thanks to the possibility to modulate electronic and optical properties, organic semiconduc¬tors bas...
The development of chiral organic semiconductors with high dissymmetry factors glum in thin films, w...
Chirality is gaining large interest in organic optoelectronics: first, it is a valid tool for contro...
Chirality in organic optoelectronics is a topic which is rapidly gaining interest:1 in fact, it is a...
Chirality is gaining large interest in organic optoelectronics:[1] first, it is a valid tool for con...
In recent years, -conjugated polymers and oligomers have found considerable attention as organic se...
Chirality is becoming increasingly important in the design of organic materials with functional prop...
Chirality of organic molecules is characterized by selective absorption and emission of circularly-p...
In the last years, chirality has gained an increasing interest in the fields of metamaterials and o...
Recently, various chiral aromatic compounds, including chiral π-conjugated liquid crystals, have bee...
Chiral π-conjugated molecules provide new materials with outstanding features for current and perspe...
The photophysical properties of conjugated materials can be strongly affected by the nature of inter...
Supramolecular chiral organization gives π-conjugated molecules access to fascinating specific inter...
The field of spintronics explores how magnetic fields can influence the properties of organic and in...
The extraordinary semiconducting properties of conjugated organic materials continue to attract atte...
Thanks to the possibility to modulate electronic and optical properties, organic semiconduc¬tors bas...
The development of chiral organic semiconductors with high dissymmetry factors glum in thin films, w...
Chirality is gaining large interest in organic optoelectronics: first, it is a valid tool for contro...
Chirality in organic optoelectronics is a topic which is rapidly gaining interest:1 in fact, it is a...
Chirality is gaining large interest in organic optoelectronics:[1] first, it is a valid tool for con...
In recent years, -conjugated polymers and oligomers have found considerable attention as organic se...
Chirality is becoming increasingly important in the design of organic materials with functional prop...
Chirality of organic molecules is characterized by selective absorption and emission of circularly-p...
In the last years, chirality has gained an increasing interest in the fields of metamaterials and o...
Recently, various chiral aromatic compounds, including chiral π-conjugated liquid crystals, have bee...
Chiral π-conjugated molecules provide new materials with outstanding features for current and perspe...
The photophysical properties of conjugated materials can be strongly affected by the nature of inter...
Supramolecular chiral organization gives π-conjugated molecules access to fascinating specific inter...
The field of spintronics explores how magnetic fields can influence the properties of organic and in...
The extraordinary semiconducting properties of conjugated organic materials continue to attract atte...
Thanks to the possibility to modulate electronic and optical properties, organic semiconduc¬tors bas...
The development of chiral organic semiconductors with high dissymmetry factors glum in thin films, w...