Unusual Magnetic Field Responsive Circularly Polarized Luminescence Probes with Highly Emissive Chiral Europium(III) Complexes

Chirality is ubiquitous within biological systems where many of the roles and functions are still undetermined. Given this, there is a clear need to design and develop sensitive chiral optical probes that can function within a biological setting. Here we report the design and synthesis of magnetically responsive Circularly Polarized Luminescence (CPL) complexes displaying exceptional photophysical properties (quantum yield up to 31 % and |g(lum)| up to 0.240) by introducing chiral substituents onto the macrocyclic scaffolds. Magnetic CPL responses are observed in these chiral Eu-III complexes, promoting an exciting development to the field of magneto-optics. The |g(lum)| of the D-5(0) -> F-7(1) transition increases by 20 % from 0.222 (0 T) to 0.266 (1.4 T) displaying a linear relationship between the Delta g(lum) and the magnetic field strength. These Eu-III complexes with magnetic CPL responses, provides potential development to be used in CPL imaging applications due to improved sensitivity and resolution.

Automated summary

This study reports the design and synthesis of magnetically responsive Circularly Polarized Luminescence (CPL) complexes with exceptional photophysical properties by introducing chiral substituents onto macrocyclic scaffolds. These chiral Eu-III complexes exhibit magnetic CPL responses and show a linear relationship between Δg(lum) and magnetic field strength, providing potential development for CPL imaging applications.