Transition-Metal Complexes for Triplet–Triplet Annihilation-Based Energy Upconversion

Abstract: In recent years, significant progress has been achieved in the field of triplet-triplet annihilation (TTA)-based energy upconversion, in which transitionmetal complexes as the sensitizers play a key role. These complexes are different from organic fluorophores because the triplet excited states, instead of the singlet excited states, are populated with a high intersystem crossing (ISC) efficiency upon photoexcitation. Meanwhile, the long-lived triplet excited states in the microsecond range are observed for th… Show more

“…35 Current efficiencies (CE max ) remain typically below 60 cdA -1 , [29][30][31] with occasionally reported peaks between 65-73 cdA -1 . 32,34 Multi-core Cu(I) complexes with rigid geometries are reported to possess bright PL, for instance dinuclear Cu(I) species including halide bridged complexes, 23,[36][37][38][39] halide-free phosphine-bridged complexes, 40 as well as amide-bridged dinuclear complexes. 18,22 Stollenz and co-workers presented luminescent multinuclear copper(I) arrays bridged by bisamidine ligands giving rise to coiled metal chains with close d 10 -d 10 Cu(I) interactions.…”

“…Very recently two-coordinate Cu­(I) complexes with a carbene and amide ligand in coplanar arrangement were reported to suppress nonradiative decay, reaching a remarkable PLQY of up to 99% and EQE max of 9.7%. , The maximum luminance ( L max ) for Cu-based devices ranges commonly between 180 and 17600 cd m –2 , , with peak performances reported between 34 000 and 42 000 cdm –2 . Current efficiencies (CE max ) remain typically below 60 cd A –1 , − with occasionally reported peaks in the range 65–73 cd A –1 . , Multicore Cu­(I) complexes with rigid geometries are reported to possess bright PL, for instance dinuclear Cu­(I) species including halide-bridged complexes, ,− halide-free phosphine-bridged complexes, and amide-bridged dinuclear complexes. , Stollenz and co-workers presented luminescent multinuclear copper­(I) arrays bridged by bisamidine ligands, giving rise to coiled metal chains with close d 10 –d 10 Cu­(I) interactions . Rigid dinuclear amide-bridged Cu­(I) structures with a bulky ligand set were shown to afford narrow fwhm (2400 cm –1 ) owing to a low reorganization energy and hampered solvent ligation in the excited state .…”

A Small Cationic Organo–Copper Cluster as Thermally Robust Highly Photo- and Electroluminescent Material

“…35 Current efficiencies (CE max ) remain typically below 60 cdA -1 , [29][30][31] with occasionally reported peaks between 65-73 cdA -1 . 32,34 Multi-core Cu(I) complexes with rigid geometries are reported to possess bright PL, for instance dinuclear Cu(I) species including halide bridged complexes, 23,[36][37][38][39] halide-free phosphine-bridged complexes, 40 as well as amide-bridged dinuclear complexes. 18,22 Stollenz and co-workers presented luminescent multinuclear copper(I) arrays bridged by bisamidine ligands giving rise to coiled metal chains with close d 10 -d 10 Cu(I) interactions.…”

“…Very recently two-coordinate Cu­(I) complexes with a carbene and amide ligand in coplanar arrangement were reported to suppress nonradiative decay, reaching a remarkable PLQY of up to 99% and EQE max of 9.7%. , The maximum luminance ( L max ) for Cu-based devices ranges commonly between 180 and 17600 cd m –2 , , with peak performances reported between 34 000 and 42 000 cdm –2 . Current efficiencies (CE max ) remain typically below 60 cd A –1 , − with occasionally reported peaks in the range 65–73 cd A –1 . , Multicore Cu­(I) complexes with rigid geometries are reported to possess bright PL, for instance dinuclear Cu­(I) species including halide-bridged complexes, ,− halide-free phosphine-bridged complexes, and amide-bridged dinuclear complexes. , Stollenz and co-workers presented luminescent multinuclear copper­(I) arrays bridged by bisamidine ligands, giving rise to coiled metal chains with close d 10 –d 10 Cu­(I) interactions . Rigid dinuclear amide-bridged Cu­(I) structures with a bulky ligand set were shown to afford narrow fwhm (2400 cm –1 ) owing to a low reorganization energy and hampered solvent ligation in the excited state .…”

A Small Cationic Organo–Copper Cluster as Thermally Robust Highly Photo- and Electroluminescent Material