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Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates

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Last updated 17 abril 2025
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
PDF) Spectroscopic Demonstration of Exciton Dynamics and Excimer Formation in a Sterically Controlled Perylene Bisimide Dimer Aggregate
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Doubly Encapsulated Perylene Diimides: Effect of Molecular Encapsulation on Photophysical Properties - ScienceDirect
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Spectroscopic Demonstration of Exciton Dynamics and Excimer Formation in a Sterically Controlled Perylene Bisimide Dimer Aggregate.
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Ultrafast spectroscopy reveals singlet fission, ionization and excimer formation in perylene film
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Direct Observation of Ultrafast Excimer Formation in Covalent Perylenediimide Dimers Using Near-Infrared Transient Absorption Spectroscopy.
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
PDF) Excitons in Carbonic Nanostructures
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Figure 4 from Direct Observation of Ultrafast Excimer Formation in Covalent Perylenediimide Dimers Using Near-Infrared Transient Absorption Spectroscopy.
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