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Experimental evidence for exciton scaling effects in self-assembled molecular wires

Experimental evidence for exciton scaling effects in self-assembled molecular wires
Experimental evidence for exciton scaling effects in self-assembled molecular wires
Resonant Rayleigh scattering from self-assembled one-dimensional molecular J-aggregate wires reveals a distinct dependence of the exciton energy on the width of lateral extension. For the J aggregates used in this study, strong in-line dipole coupling leads to a delocalization of the exciton wave function over several molecular units. Polarization dependent measurements of resonantly scattered light from the wires show that the exciton dipole moment is oriented perpendicular to the long axis. The experimental observations can be described by applying a quantization condition to the center of mass motion of the J-band exciton in the wires.
0031-9007
257401-[4pp]
Lagoudakis, P.G.
ea50c228-f006-4edf-8459-60015d961bbf
de Souza, M.M.
5e1d9d67-5af2-4de5-8161-8177d57955be
Schindler, F.
25829a84-964f-4801-94ef-674f34eacf89
Lupton, J.M.
48290c8f-dc29-47f3-9045-2281590587e9
Feldmann, J.
98d048f6-c77d-47b1-827c-256b8f04ee70
Wenus, J.
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Lidzey, D.G.
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Lagoudakis, P.G.
ea50c228-f006-4edf-8459-60015d961bbf
de Souza, M.M.
5e1d9d67-5af2-4de5-8161-8177d57955be
Schindler, F.
25829a84-964f-4801-94ef-674f34eacf89
Lupton, J.M.
48290c8f-dc29-47f3-9045-2281590587e9
Feldmann, J.
98d048f6-c77d-47b1-827c-256b8f04ee70
Wenus, J.
a0805a94-9642-442b-810a-adead6ac610d
Lidzey, D.G.
5d7d3f80-7bec-4d49-ac6c-8746d604f672

Lagoudakis, P.G., de Souza, M.M., Schindler, F., Lupton, J.M., Feldmann, J., Wenus, J. and Lidzey, D.G. (2004) Experimental evidence for exciton scaling effects in self-assembled molecular wires. Physical Review Letters, 93 (25), 257401-[4pp]. (doi:10.1103/PhysRevLett.93.257401).

Record type: Article

Abstract

Resonant Rayleigh scattering from self-assembled one-dimensional molecular J-aggregate wires reveals a distinct dependence of the exciton energy on the width of lateral extension. For the J aggregates used in this study, strong in-line dipole coupling leads to a delocalization of the exciton wave function over several molecular units. Polarization dependent measurements of resonantly scattered light from the wires show that the exciton dipole moment is oriented perpendicular to the long axis. The experimental observations can be described by applying a quantization condition to the center of mass motion of the J-band exciton in the wires.

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Published date: 2004
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Identifiers

Local EPrints ID: 19269
URI: http://eprints.soton.ac.uk/id/eprint/19269
DOI: doi:10.1103/PhysRevLett.93.257401
ISSN: 0031-9007
PURE UUID: c19ce5e9-a6bb-4a6c-a758-a8f5ea66435a
ORCID for P.G. Lagoudakis: ORCID iD orcid.org/0000-0002-3557-5299

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Date deposited: 30 Jan 2006
Last modified: 15 Mar 2024 06:13

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Contributors

Author: P.G. Lagoudakis ORCID iD
Author: M.M. de Souza
Author: F. Schindler
Author: J.M. Lupton
Author: J. Feldmann
Author: J. Wenus
Author: D.G. Lidzey

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