Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Por um escritor misterioso
Descrição
Ultrafast spectroscopy reveals singlet fission, ionization and excimer formation in perylene film
Exciton Trapping in π-Conjugated Materials: A Quantum-Chemistry-Based Protocol Applied to Perylene Bisimide Dye Aggregates
Energy Flow Dynamics within Cofacial and Slip-Stacked Perylene-3,4-dicarboximide Dimer Models of π-Aggregates
Figure 3 from Direct Observation of Ultrafast Excimer Formation in Covalent Perylenediimide Dimers Using Near-Infrared Transient Absorption Spectroscopy.
PDF) Spectroscopic Demonstration of Exciton Dynamics and Excimer Formation in a Sterically Controlled Perylene Bisimide Dimer Aggregate
Luminescence in Crystalline Organic Materials: From Molecules to Molecular Solids - Gierschner - 2021 - Advanced Optical Materials - Wiley Online Library
Doubly Encapsulated Perylene Diimides: Effect of Molecular Encapsulation on Photophysical Properties - ScienceDirect
Perylene Diimide-Based Hj- and hJ-Aggregates: The Prospect of Exciton Band Shape Engineering in Organic Materials
Ultrafast Exciton Self-Trapping upon Geometry Deformation in Perylene-Based Molecular Aggregates
Safeguarding long-lived excitons from excimer traps in H-aggregated dye-assemblies - Chemical Science (RSC Publishing) DOI:10.1039/D0SC01784A
Doubly Encapsulated Perylene Diimides: Effect of Molecular Encapsulation on Photophysical Properties - ScienceDirect
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