A cuprous dinuclear copper complex [PPh_2PAr_2Cu(μ-SCN)_2CuPPh_2PAr_2](1,PPh_2PAr_2 =(1-bis(2-methylphenyl)-phosphine-2-diphenylphosphino)benzene) was synthesized from the reaction of Cu SCN and PPh_2PAr_2 in...A cuprous dinuclear copper complex [PPh_2PAr_2Cu(μ-SCN)_2CuPPh_2PAr_2](1,PPh_2PAr_2 =(1-bis(2-methylphenyl)-phosphine-2-diphenylphosphino)benzene) was synthesized from the reaction of Cu SCN and PPh_2PAr_2 in CH_3CN at room temperature. The compound was characterized by Elemental Analysis,NMR,UV-Vis and X-ray single-crystal structure analysis. It crystallizes in triclinic,space group P1 with a = 10.225(2),b = 11.360(2),c = 13.420(3) ?,α = 95.81(3),β = 93.45(3),γ = 113.78(3)°,V = 1410.4(5) ?~3,Z = 1,Mr = 1192.21,Dc = 1.404 g/cm^3,F(000) = 616,μ = 3.029 mm^(–1),GOOF = 1.052,the final R = 0.0359,and w R = 0.0964 for 4878 observed reflections with I 〉 2σ(I). The Cu(I) atoms in the complex are four-coordinated and adopt a tetrahedral coordination geometry. The copper centers in the molecular structure are bridged by two thiocyanate anions and each Cu(I) is chelated further terminally by a PPh_2PAr_2 ligand. The [Cu(μ-SCN)_2Cu] cores have essential planar configurations. In the solid state,the complex exhibits blue photoluminescence with emission peaks λ_(max)= 478 nm(1),lifetimes 4.7 μs and quantum yields(ф = 0.43) at room temperature. The studies of varied temperature emission spectra and decay behaviours of the complex indicate that it displays thermally activated delayed fluorescence at room temperature. The results of the experimental and DFT calculations suggest that the emission in the solid state originates from the ^(1,3)MLCT excited states.展开更多
基金supported by the National Natural Science Foundation of China(51172232)
文摘A cuprous dinuclear copper complex [PPh_2PAr_2Cu(μ-SCN)_2CuPPh_2PAr_2](1,PPh_2PAr_2 =(1-bis(2-methylphenyl)-phosphine-2-diphenylphosphino)benzene) was synthesized from the reaction of Cu SCN and PPh_2PAr_2 in CH_3CN at room temperature. The compound was characterized by Elemental Analysis,NMR,UV-Vis and X-ray single-crystal structure analysis. It crystallizes in triclinic,space group P1 with a = 10.225(2),b = 11.360(2),c = 13.420(3) ?,α = 95.81(3),β = 93.45(3),γ = 113.78(3)°,V = 1410.4(5) ?~3,Z = 1,Mr = 1192.21,Dc = 1.404 g/cm^3,F(000) = 616,μ = 3.029 mm^(–1),GOOF = 1.052,the final R = 0.0359,and w R = 0.0964 for 4878 observed reflections with I 〉 2σ(I). The Cu(I) atoms in the complex are four-coordinated and adopt a tetrahedral coordination geometry. The copper centers in the molecular structure are bridged by two thiocyanate anions and each Cu(I) is chelated further terminally by a PPh_2PAr_2 ligand. The [Cu(μ-SCN)_2Cu] cores have essential planar configurations. In the solid state,the complex exhibits blue photoluminescence with emission peaks λ_(max)= 478 nm(1),lifetimes 4.7 μs and quantum yields(ф = 0.43) at room temperature. The studies of varied temperature emission spectra and decay behaviours of the complex indicate that it displays thermally activated delayed fluorescence at room temperature. The results of the experimental and DFT calculations suggest that the emission in the solid state originates from the ^(1,3)MLCT excited states.
