A new mechanism for enhanced phosphorescence emission in the solid state (EPESS) in cyclometallated Ir complexes with the general formula [Ir(C ∧ N) 2 (N ∧ O)] involving distortion of the six-membered chelate ring of the ancillary ligand [a]
Complexes [MCl2Cp*]2 (M= Ir, Rh), [RuCl2(p‐cymene)]2 and [Ir(C^N)2Cl]2 (HC^N = a, phenylpyridine ; b, phenylpyrazole,) react with imine ligands derived from o‐aminophenol to yield complexes with an exocyclic C=N bond which has a cis or trans configuration. The trans isomer is favoured except for sterically crowded complexes Cp*M (M = Ir, Rh) when the imine has a mesityl substituent, for which the cis isomer is favoured. The complexes undergo photoisomerization in visible light but revert back to the original isomer over time or when heated. The rate of the thermal reverse isomerisation depends on the imine substituent and the metal fragment. DFT calculations correctly reproduce the favoured isomer and suggest that the reverse isomerisation occurs by a rehybridisation at the N atom as found in organic imines. In addition, a triplet state, thermally accessible by a Minimum Energy Crossing Point (MECP) provides a low energy pathway for reverse isomerisation in the case of the half‐sandwich complexes
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