Research Areas - (1) NIR-II Emissive Molecular Complexes

Full path: Chemistry > Physical Chemistry > Molecular Photophysics and Luminescent Sensing > NIR-II Emissive Molecular Complexes

Department(s)/lab(s): Department of Chemistry, Institute of Inorganic and Analytical Chemistry | AK Heinze - Molecular Photophysics @ JGU
Summary:

Heinze designs earth-abundant luminescent metal complexes -- the 'molecular ruby' (Cr(III)) family and its Mo(III) NIR-II-emitting analogues -- and studies their excited-state dynamics with time-resolved luminescence, ultrafast spectroscopy and EPR, in collaboration with spin-spectroscopy groups including van Slageren at Stuttgart. Applications targeted include optical sensing (oxygen, pressure, temperature), NIR-II imaging in the tissue-transparency window, and photocatalysis. Relative to the established NV-ensemble quantum-sensing playbook (DEER, nanoscale NMR, T1 relaxometry at pT/sqrt(Hz) ensemble sensitivity), this is a dye/label-based sensing inclusion rather than a spin-defect one: the emphasis is on engineering the emitter's photophysics so that lifetime and intensity report on the local environment, which is directly comparable to nanodiamond thermometry/relaxometry but at the molecular scale.