Extent of charge separation and exciton delocalization for electronically excited states in a triphenylamine-C60 donor–acceptor conjugate: a combined molecular dynamics and TD-DFT study

orcId Martínez López, Juan Pablo scopusId Martínez López, Juan Pablo
Martínez López, Juan Pablo
orcId Osuna Oliveras, Sílvia researcherId Osuna Oliveras, Sílvia scopusId Osuna Oliveras, Sílvia
Osuna Oliveras, Sílvia
orcId Solà i Puig, Miquel researcherId Solà i Puig, Miquel scopusId Solà i Puig, Miquel
Solà i Puig, Miquel
orcId Voityuk, Alexander A. researcherId Voityuk, Alexander A. scopusId Voityuk, Alexander A.
Voityuk, Alexander A.
Texto Completo
ExtentChargeSeparation.pdf embargoed access
Solicita copia
Solicita copia
Al rellenar este formulario estáis solicitando una copia del artículo, depositado en el repositorio institucional (DUGiDocs), a su autor o al autor principal del artículo. Será el mismo autor quien decidirá enviar una copia del documento a quien lo solicite si lo considera oportuno. En todo caso, la Biblioteca de la UdG no interviene en este proceso ya que no está autorizada a facilitar artículos cuando éstos son de acceso restringido.
Compartir
Triphenylamine-pyrrolidine-C-60 is a potential material to construct high-efficient dye-sensitized solar cells. A combined molecular dynamics and time-dependent density functional theory study has been carried out to analyze charge separation and exciton delocalization in excited states of two constitutional isomers of this compound. Insight into the intrinsic structure of the excited states is provided. The presence of states with a hybrid excitonic and charge-transfer character is suggested to promote the direct charge separation process by excitation, which could have a significant impact on the efficiency of the light-harvesting species. A greater amount of such hybrid states is found at short distances between the triphenylamine fragment and the C-60 cage ​
​Tots els drets reservats
Mostrar el registro completo del ítem