1988
DOI: 10.1002/chin.198814033
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ChemInform Abstract: Charge‐Transfer Absorption and Emission of Cu(NN)+ 2 Systems.

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“…Also significant in this regard is that the above correlation is lost in a rigid matrix at 77 K, where exciplex quenching should be inhibited. 43 It is intriguing to note that the Cu(phen)2+ system does not exhibit detectable luminescence even at 77 K. Since its absorption spectrum is similar to that of Cu(dmp)2+ and those of the other emitting systems, we attribute the lack of emission to efficient nonradiative decay rather than to an inefficient radiative process.…”
Section: Resultsmentioning
confidence: 86%
“…Also significant in this regard is that the above correlation is lost in a rigid matrix at 77 K, where exciplex quenching should be inhibited. 43 It is intriguing to note that the Cu(phen)2+ system does not exhibit detectable luminescence even at 77 K. Since its absorption spectrum is similar to that of Cu(dmp)2+ and those of the other emitting systems, we attribute the lack of emission to efficient nonradiative decay rather than to an inefficient radiative process.…”
Section: Resultsmentioning
confidence: 86%
“…In homoleptic Cu(I) polypyridine complexes, sufficiently bulky ligand substituents at the 2-and 9-positions were found to be required for luminescence, with their lifetimes being ligand, concentration and solvent dependent. 18,19 [Cu I (dmp) 2 ] + (dmp =2,9-dimethyl-1,10-phenanthroline) is one of the most studied cuprous diimine compounds and its mechanism of generating the MLCT state is generally accepted. 7−14 The Cu I ground state has a d 10 electron configuration, with a slightly distorted tetrahedral geometry (C 2 ).…”
Section: ■ Introductionmentioning
confidence: 99%