Self-Assembled Bis-Acridinium Tweezer Equilibria Controlled by Multi-Responsive Properties

Johnny Hu; Jean-Pierre Launay; Alain Chaumont; Valérie Heitz; Henri-Pierre Jacquot de Rouville

doi:10.1002/chem.202401866

Self-Assembled Bis-Acridinium Tweezer Equilibria Controlled by Multi-Responsive Properties

Chemistry. 2024 May 23:e202401866. doi: 10.1002/chem.202401866. Online ahead of print.

Authors

Johnny Hu¹, Jean-Pierre Launay², Alain Chaumont³, Valérie Heitz¹, Henri-Pierre Jacquot de Rouville⁴

Affiliations

¹ Université de Strasbourg, Institut de Chimie, FRANCE.
² Université de Toulouse, CEMES, FRANCE.
³ Université de Strasbourg, Chimie Matière Complexe, FRANCE.
⁴ Centre National pour la Recherche Scientifique et Technique, of Chemistry, 75013, Strasbourg, FRANCE.

PMID: 38780863
DOI: 10.1002/chem.202401866

Abstract

Protonated and methylated bis-acridinium tweezers built around a 2,6-diphenylpyridyl and an electron enriched 2,6-di(p-anisyl)pyridyl spacer have been synthesized. These tweezers can self-assemble in their corresponding homodimers and the associated thermodynamic parameters have been probed in organic solvents. The switching properties of the tweezers have been exploited in biphasic transfer experiments showing the shift of the equilibria towards the homodimers. Moreover, the thermodynamic parameters of the formation of the reduced methylated homodimers investigated by electrochemical experiments revealed the dissociation of the dimers. Thus, in addition to solvent and temperature, the pH and redox responsiveness of the acridinium units of the tweezers make it possible to modulate to a larger extent the monomer-dimer equilibria.

Keywords: Molecular Tweezers * Entwined Dimer * Acridinium * Halochromism * Electrochemistry.