Metal‐to‐Metal Distance Modulation by Ligand Design: A Case Study of Structure‐Property Correlation in Planar Chiral Cyclophanyl Metal Complexes.

Hassan, Zahid; Bräse, Stefan

Multinuclear metal complexes have seen tremendous progress in synthetic advances, their versatile structural features, and emerging applications. Here, we conceptualize Metal‐to‐Metal distance modulation in cyclophanyl metal complexes by bridging ligand design employing the co‐facially stacked cyclophanyl‐derived pseudo‐geminal, ‐ortho, ‐meta, and ‐para constitutional isomers grafted with N‐, O‐, and P‐ containing chelates that allow the installation of diverse (hetero)metallic moieties in a distance‐defined and spatially‐oriented relation to one another. Metal‐to‐Metal distance modulation and innate transannular "through‐space" π–π electronic interactions via the co‐facially stacked benzene rings in cyclophanyl‐derived complexes as well as their specific stereochemical structural features (element of planar chirality) are crucial factors that contribute to the tuning of structure‐property relationships, which stand at the very center from the perspective of cooperative effects in catalysis as well as emerging material applications.

METAL complexes; PLANAR chirality; LIGANDS (Chemistry); EXPERIMENTAL design; ISOMERS; CATALYSIS

Chemistry - A European Journal, 2021, Vol 27, Issue 61, p15020

0947-6539

Academic Journal

10.1002/chem.202102336