Luminescent Single‐Molecule Magnets as Dual Magneto‐Optical Molecular Thermometers

Abstract

AbstractLuminescent thermometry allows the remote detection of the temperature and holds great potential in future technological applications in which conventional systems could not operate. Complementary approaches to measuring the temperature aiming to enhance the thermal sensitivity would however represent a decisive step forward. For the first time, we demonstrate the proof‐of‐concept that luminescence thermometry could be associated with a complementary temperature readout related to a different property. Namely, we propose to take advantage of the temperature dependence of both magnetic (canonical susceptibility and relaxation time) and luminescence features (emission intensity) found in Single‐Molecule Magnets (SMM) to develop original dual magneto‐optical molecular thermometers to conciliate high‐performance SMM and Boltzmann‐type luminescence thermometry. We highlight this integrative approach to concurrent luminescent and magnetic thermometry using an air‐stable benchmark SMM [Dy(bbpen)Cl] (H2bbpen=N,N′‐bis(2‐hydroxybenzyl)‐N,N′‐bis(2‐methylpyridyl)ethyl‐enediamine)) exhibiting Dy3+ luminescence. The synergy between multiparametric magneto‐optical readouts and multiple linear regression makes possible a 10‐fold improvement in the relative thermal sensitivity of the thermometer over the whole temperature range, compared with the values obtained with the single optical or magnetic devices.