Microsecond Photoluminescence and Photoreactivity of a Metal-Centered Excited State in a Hexacarbene–Co(III) Complex

Abstract: The photofunctionality of the cobalt−hexacarbene complex [Co(III)(PhB(MeIm) 3 ) 2 ] + (PhB(MeIm) 3 = tris(3methylimidazolin-2-ylidene)(phenyl)borate) has been investigated by time-resolved optical spectroscopy. The complex displays a weak (Φ ∼ 10 −4 ) but remarkably long-lived (τ ∼ 1 μs) orange photoluminescence at 690 nm in solution at room temperature following excitation with wavelengths shorter than 350 nm. The strongly red-shifted emission is assigned from the spectroscopic evidence and quantum chemical c… Show more

“…Chemie studies have focused on maximizing ligand field strength and on optimizing ligand bite angles,our work demonstrates that increasing the metal-ligand bond covalence through combined p-donor and p-acceptor interactions allows emission color tuning and can lead to NIR-II luminescence.Moreover, the inert and chiral nature of the [Cr(dpc) 2 ] + chromophore opens perspectives for the induction of circularly polarized emission in the NIR-II domain while using an abundant 3dmetal. These insights complement recent ground-breaking discoveries in the photophysics and the photochemistry of complexes with other first-row transition metals,i ncluding V II/III , [23,42] Mn IV , [43] Fe II , [25] Fe III , [44] Co III , [45] Ni II , [46] and Cu I . [22c, 47] It seems that much fundamental work is yet needed to fully elucidate the potential of 3d-metals for applications in luminophores,l ight harvesting, sensing,p hotocatalysis and beyond.…”

A Near‐Infrared‐II Emissive Chromium(III) Complex

“…Chemie studies have focused on maximizing ligand field strength and on optimizing ligand bite angles,our work demonstrates that increasing the metal-ligand bond covalence through combined p-donor and p-acceptor interactions allows emission color tuning and can lead to NIR-II luminescence.Moreover, the inert and chiral nature of the [Cr(dpc) 2 ] + chromophore opens perspectives for the induction of circularly polarized emission in the NIR-II domain while using an abundant 3dmetal. These insights complement recent ground-breaking discoveries in the photophysics and the photochemistry of complexes with other first-row transition metals,i ncluding V II/III , [23,42] Mn IV , [43] Fe II , [25] Fe III , [44] Co III , [45] Ni II , [46] and Cu I . [22c, 47] It seems that much fundamental work is yet needed to fully elucidate the potential of 3d-metals for applications in luminophores,l ight harvesting, sensing,p hotocatalysis and beyond.…”

A Near‐Infrared‐II Emissive Chromium(III) Complex

“…McCusker et al recently reported spectroscopical evidence of 5 MC states taking part in electron transfer reactions 25 and reactivity of MC-states is also known in chromium(III)-and cobalt(III) complexes. 26,27 The deduced relaxation cascades for Fe1 and Fe2 are compared in Fig. 4.…”

Distinct photodynamics of κ-N and κ-C pseudoisomeric iron(ii) complexes

“…This was recently accomplished for a Co III complex with the use of a scorpionate carbene ligand. 64 The same ligand has also proven useful in making an iron( iii ) (d 5 ) complex emit from a ligand-to-metal charge transfer (LMCT) excited state, applicable to photocatalytic reactions. 65,66,68 Thus, each d-electron configuration has its own photophysical characteristics, and further research in all directions seems highly desirable in the interest of broadening our understanding of photoactive excited states in first-row transition metal complexes.…”

Luminescent chromium(0) and manganese(i) complexes