Tuning the excited state properties of [2.2]paracyclophane-based antennas to ensure efficient sensitization of lanthanide ions or singlet oxygen generation.

12 July 2021, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

The multi-step synthesis of original antennas incorporating substituted [2.2]paracyclophane (pCp) moieties in the -conjugated skeleton is described. These antennas, functionalized with electron an donor alkoxy fragment (A1) or with a fused coumarin derivative (A2) are incorporated in a triazacyclonane macrocyclic ligand L1 or L2, respectively for the design of Eu(III), Yb(III) and Gd(III) complexes. A combined photophysical/theoretical study reveals that A1 presents a charge transfer character via the through-space paracyclophane conjugation, whereas A2 presents only local excited states centered on the coumarin-paracyclophane moiety, strongly favoring triplet state population via intersystem crossing. The resulting complexes EuL1 and YbL2 are fully emissive in the red and near infrared, respectively whereas the GdL2 complex acts as photosensitizer for the generation of singlet oxygen.

Keywords

Paracyclophane
lanthanide
luminescence

Supplementary materials

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