Femtosecond charge transfer in assemblies of discotic liquid crystals

Michel P. de Jong; Wojciech Osikowicz; Stacey Ristinmaa Sörensen; Sergey Sergeyev; Yves H. Geerts; William R. Salaneck

doi:10.1021/jp8037494

Femtosecond charge transfer in assemblies of discotic liquid crystals

Michel P. de Jong, Wojciech Osikowicz, Stacey Ristinmaa Sörensen, Sergey Sergeyev, Yves H. Geerts, William R. Salaneck

Synkrotronljusfysik

Forskningsoutput: Tidskriftsbidrag › Artikel i vetenskaplig tidskrift › Peer review

Sammanfattning

The electronic coupling strength within columns of discotic liquid crystals is investigated using core-level Coexisting well-ordered and disordered regions are identified in thin films of tetra-alkoxy-substituted phthalocyanines with the aid of near edge X-ray absorption fine structure and photoelectron spectroscopies. These different regions Lire used to derive a lower limit for the intermolecular charge transfer bandwidth within the framework of the core-hole clock principle. We find average charge transfer times on the order of a few femtoseconds, that is, significantly faster than the C(1s) core-hole lifetime, which indicates a surprisingly strong electronic coupling between the phthalocyanine units as compared to what is expected from the charge transport characteristics of this material.

Originalspråk	engelska
Sidor (från-till)	15784-15790
Tidskrift	Journal of Physical Chemistry C
Volym	112
Nummer	40
DOI	https://doi.org/10.1021/jp8037494
Status	Published - 2008

Ämnesklassifikation (UKÄ)

Atom- och molekylfysik och optik (Här ingår: Kemisk fysik, kvantoptik)

Tillgång till dokument

10.1021/jp8037494

Citera det här

@article{65af0f6f63c54a8fa07ec64d7922b39c,

title = "Femtosecond charge transfer in assemblies of discotic liquid crystals",

abstract = "The electronic coupling strength within columns of discotic liquid crystals is investigated using core-level Coexisting well-ordered and disordered regions are identified in thin films of tetra-alkoxy-substituted phthalocyanines with the aid of near edge X-ray absorption fine structure and photoelectron spectroscopies. These different regions Lire used to derive a lower limit for the intermolecular charge transfer bandwidth within the framework of the core-hole clock principle. We find average charge transfer times on the order of a few femtoseconds, that is, significantly faster than the C(1s) core-hole lifetime, which indicates a surprisingly strong electronic coupling between the phthalocyanine units as compared to what is expected from the charge transport characteristics of this material.",

author = "{de Jong}, {Michel P.} and Wojciech Osikowicz and {Ristinmaa S{\"o}rensen}, Stacey and Sergey Sergeyev and Geerts, {Yves H.} and Salaneck, {William R.}",

year = "2008",

doi = "10.1021/jp8037494",

language = "English",

volume = "112",

pages = "15784--15790",

journal = "Journal of Physical Chemistry C",

issn = "1932-7447",

publisher = "The American Chemical Society (ACS)",

number = "40",

}

TY - JOUR

T1 - Femtosecond charge transfer in assemblies of discotic liquid crystals

AU - de Jong, Michel P.

AU - Osikowicz, Wojciech

AU - Ristinmaa Sörensen, Stacey

AU - Sergeyev, Sergey

AU - Geerts, Yves H.

AU - Salaneck, William R.

PY - 2008

Y1 - 2008

N2 - The electronic coupling strength within columns of discotic liquid crystals is investigated using core-level Coexisting well-ordered and disordered regions are identified in thin films of tetra-alkoxy-substituted phthalocyanines with the aid of near edge X-ray absorption fine structure and photoelectron spectroscopies. These different regions Lire used to derive a lower limit for the intermolecular charge transfer bandwidth within the framework of the core-hole clock principle. We find average charge transfer times on the order of a few femtoseconds, that is, significantly faster than the C(1s) core-hole lifetime, which indicates a surprisingly strong electronic coupling between the phthalocyanine units as compared to what is expected from the charge transport characteristics of this material.

AB - The electronic coupling strength within columns of discotic liquid crystals is investigated using core-level Coexisting well-ordered and disordered regions are identified in thin films of tetra-alkoxy-substituted phthalocyanines with the aid of near edge X-ray absorption fine structure and photoelectron spectroscopies. These different regions Lire used to derive a lower limit for the intermolecular charge transfer bandwidth within the framework of the core-hole clock principle. We find average charge transfer times on the order of a few femtoseconds, that is, significantly faster than the C(1s) core-hole lifetime, which indicates a surprisingly strong electronic coupling between the phthalocyanine units as compared to what is expected from the charge transport characteristics of this material.

U2 - 10.1021/jp8037494

DO - 10.1021/jp8037494

M3 - Article

SN - 1932-7447

VL - 112

SP - 15784

EP - 15790

JO - Journal of Physical Chemistry C

JF - Journal of Physical Chemistry C

IS - 40

ER -

Femtosecond charge transfer in assemblies of discotic liquid crystals

Sammanfattning

Ämnesklassifikation (UKÄ)

Tillgång till dokument

Fingeravtryck

Citera det här