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Supramolecular Tuning of Exciton Transport in Pi-Peptide Assemblies

Chana R. Honick, Sayak Subhra Panda, Luke R. O’Connor, John D. Tovar, Arthur E. Bragg

2023The Journal of Physical Chemistry C14 citationsDOI

Abstract

We demonstrate the use of sequence-dependent interactions between peptide-functionalized pi-conjugated pigments to tune exciton transport behavior in their supramolecular assemblies in aqueous solutions. Peptide sequences attached to a perylene diimide (PDI) core were selected based on their ability to foster a wide range of excitonic coupling strengths within organized assemblies, as reflected by experimentally measured steady-state absorption and emission spectra. Photoresponses of organized assemblies of weakly interacting PDIs closely resemble those observed for weakly assembled chromophores. In contrast, organized assemblies that support strong intermolecular coupling exhibit significant excitonic delocalization and transport, as observed through distinct transient signatures of fluence-dependent singlet–singlet annihilation and a short-lived biexcitonic state at high initial exciton densities. A one-dimensional (1D) diffusion model appropriately accounts for exciton–exciton encounters in assemblies, with effective exciton diffusion constants that scale with interchromophore coupling strength, ranging between 0 and 7 sites 2 /ps (0–1 nm 2 /ps or L D ranging from 0 to 40 nm). Variations in effective diffusion constant arise from peptide-tuned variations in interchromophore alignment and wavefunction overlap, with mixed Frenkel-CT exciton coupling identified as the key interaction that facilitates site-to-site exciton diffusion within PDI stacks. This work demonstrates the potential to use simple peptide sequence variation as a tool for rational engineering of exciton transport and other excited-state behaviors in supramolecular materials.

Topics & Concepts

ExcitonDelocalized electronChromophoreChemical physicsSupramolecular chemistryUltrafast laser spectroscopyMolecular physicsIntermolecular forceMaterials scienceChemistryCrystallographySpectroscopyPhotochemistryPhysicsCondensed matter physicsMoleculeQuantum mechanicsCrystal structureOrganic chemistryLuminescence and Fluorescent MaterialsSupramolecular Self-Assembly in MaterialsConducting polymers and applications
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