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Abstract
Two silver nitrate complexes with bisphosphines were obtained and characterized: [Ag(dcypm)]2(NO3)2 (1; dcypm = bis(dicyclohexylphosphino)methane) and [Ag(dppm)]2(Me2PzH)n(NO3)2 (n = 1, 2a; n = 2, 2b; dppm = bis(diphenylphosphino)methane, Me2PzH = 3,5-dimethylpyrazole). The steric repulsions of bulky cyclohexyl substituents prevent additional ligand coordination to the silver atoms in 1. Compounds obtained feature the bimetallic eight-member cyclic core [AgPCP]2. The intramolecular argenthophilic interaction (d(Ag···Ag) = 2.981 Å) was observed in complex 1. In contrast, the coordination of pyrazole led to the elongation of Ag···Ag distance to 3.218(1) Å in 2a and 3.520 Å in 2b. Complexes 1 and 2a possess phosphorescence both in the solution and solid state. Time-dependent density-functional theory (TD-DFT) calculations demonstrate the origin of their different emission profile. In the case of 1, upon excitation, the electron leaves the Ag–P bonding orbital and locates on the intramolecular Ag···Ag bond (metal-centered character). Complex 2a at room temperature exhibits a phosphorescence originating from the 3(M + LP+N)LPhCT state. At 77 K, the photoluminescence spectrum of complex 2a shows two bands of two different characters: 3(M + LP+N)LPhCT and 3LCPh transitions. The contribution of Ag atoms to the excited state in both complexes 2a and 2b decreased relative to 1 in agreement with the structural changes caused by pyrazole coordination.
Highlights
The non-covalent metal–metal interactions play a significant role in the emission [1,2] or catalytic [3,4,5] properties of the d10 metal complexes
Complex 1 was obtained by the interaction of AgNO3 with bis(dicyclohexylphosphino)methane in dichloromethane (DCM) and subsequent precipitation with hexane
The addition of dcypm to the solution of the complex [Ag(Me2 PzH )]NO3 generated in situ only led to complex 1 with high yield. This suggests that the steric effect of bulk cyclohexyl substituents makes impossible the pyrazole coordination to the silver atoms
Summary
The non-covalent metal–metal interactions play a significant role in the emission [1,2] or catalytic [3,4,5] properties of the d10 metal complexes. Dinuclear or trinuclear coinage metal complexes with bridging bis- or trisphosphine ligands represent a unique class of molecules occupying a position between mononuclear complexes and nanoparticles. They have remarkable chemical and physicochemical properties due to the presence of metal–metal bonds of various energy [6]. Di- and tetranuclear silver nitrates with bis(diphenylphosphino)methane are known since 1983 [7]. Dinuclear complexes with bisphosphines [Ag(dcypm)]2X2 (X =2 PF dcypm bis(dicyclohexylphosphino)methane). Theinteraction interaction between two coinage metal been investigated by spectral as well as computational methods [15,16]. The synthesis, structures, photophysical properties of dinuclear silver(I) bisphosphines.
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