Shun-Ze Zhan,*,† Wei Chen,† Weigang Lu,‡ Ji Zheng,‡ Fei Ding,† Tong Feng,† and Dan Li*,‡

Abastract: Three Cu₃Pz₃-based isostructural complexes (Cu₃L₃)₂(CuX)₂ (labeled as 1-ClO₄, 1-NO₃, and 1-Br, where X = ClO₄^-, NO₃^-, and Br^-, respectively) were prepared by solvothermal reactions of an angular bifunctional pyridyl-pyrazole ligand, 4-(pyridin-4′-ylthio)-3,5-dimethyl-1Hpyrazole (HL), with Cu(ClO₄)₂, Cu(NO₃)₂, and CuBr, respectively. Pyrazolate (Pz) groups are highly specific to form planar trinuclear Cu₃Pz₃ units. Two Cu₃L₃ units are further connected by two CuX units through Npy-Cu-NPy (Py= 4-pyridyl) bonds to form an octanuclear chairlike molecule (Cu₃L₃)₂(CuX)₂, which then self-assembles through intertrimeric cuprophilicity to construct chainlike supraaggregates featuring two luminophores, [Cu₃Pz₃]₂ and CuPy₂X.With different counteranions (ClO₄^-, NO₃^-, and Br^-), the complexes give off various emissions from red to green upon UV irradiation. 1-ClO₄ and 1-NO₃ show only low-energy (LE) orange (λ_em^max = 585 nm) and red (λ_em^max = 640 nm) emissions, while 1-Br exhibits excitation-dependent (260-360 nm) emissions from yellow to green due to variation in the relative intensities of two resolvable emissions, high energy (HE, λ_em^max = 520 nm) and LE (λ_em ^max = 630 nm). The dual emissions are assigned to 3CC (LE states) based on excimeric [Cu₃Pz₃]₂ units and ³XLCT/³MLCT (HE states) based on CuPy₂X units. This work realizes a chemopalette effect through regulations of the counteranion and excitation energy in a dual-emissive system. It provides valuable insights into the nature of dual-emissive materials and the further investigation of the photophysical mechanism in such a system.

文章链接：acs.inorgchem.8b02203.pdf