Oxidative Addition and β-Hydride Elimination by a Macrocyclic Dinickel Complex: Observing Bimetallic Elementary Reactions

Synthesis and Characterization of Bimetallic Copper(I) Complexes Supported by a Hexadentate Naphthyridine-Based Macrocycle Ligand

Herein, we report the synthesis, characterization, and binding properties of a new ligand, N,N'-di-tert-butyl-3,7-diaza-1,5(2,7)-1,8-naphthyridinacyclooctaphane (tBuN6), with copper (I), CuI, centers. We demonstrate the flexibility and the ability of tBuN6 to adopt various conformations in solution and when coordinated to CuIcenters. NMR studies exhibit the labile coordination nature of CuI. However, the lability of the complexes is blocked by counterion exchange, which enables the use of less coordinating solvents such as tetrahydrofuran (THF) and avoids using acetonitrile. Thus, the exchange of [BF4]- with tetrakis 3,5-bis(trifluoromethyl)phenyl borate, [B(ArF)4]-, in 1·BF4, [Cu2(MeCN)2(tBuN6)][BF4], generates 1·B(ArF)4, which is stable in THF and reacts under a CO atmosphere to generate a syn,syn bis(carbonyl) complex. This complex is sufficiently stable in solution under CO and Ar atmosphere to be characterized by NMR and IR spectroscopy, the latter revealing two stretching bands for the CO bound to the CuI-centers at 2102 and 2088 cm-1.

Ruthenium, copper and ruthenium-copper complexes of an unsymmetrical phosphino pyridyl 1,8-naphthyridine PNNN ligand

A new unsymmetrical dinucleating phosphino pyridyl 1,8-naphthyridine ligand PNNN is reported. Reaction with CuCl gave the dicopper complex [Cu2(μ-Cl)2(PNNN)] (1). In contrast, complexation of [RuCl2(cymene)]2 yielded a monometallic species [RuCl(cymene)(PNNN)]Cl ([2]Cl) in which the Ru is bound to the κ2-N,N, rather than κ2-P,N, binding pocket. The selective formation of the monoruthenium complex [2]Cl enabled synthesis of heterobimetallic complexes [RuCuCl3(cymene)(PNNN)] (3) and [RuCuCl2(cymene)(PNNN)]2[PF6]2 ([4]2[PF6]2), which both exhibit κ1-P coordination of Cu. Complexes 1 and [4]2[PF6]2 exhibit reversible dearomatisation-aromatisation behaviour at the metal-ligand cooperative methylene site upon sequential treatment with base (KOtBu) and acid (HCl). Notably, deprotonation of [4]2[PF6]2 induces a shift in the coordination mode of Cu to κ2-P,N.

A one-pot reduction route to bimetallic manganese 1,8-naphthyridine complexes

Reaction of the dinucleating ligand 2,7-bis(6-methyl-2-pyridyl)-1,8-naphthyridine (MeL) with the MnI and MnII precursors MnBr(CO)5 and MnCl2 resulted in the formation of the monometallic complexes [MnBr(CO)3(MeL)] (1) and [MnCl2(MeL)] (3). In both cases, formation of bimetallic manganese complexes could be achieved by reduction with KC8, yielding the carbonyl-bridged complex [Mn2(CO)6(MeL)] (2) and the helicate complex [Mn2(MeL)2] (4), respectively. EPR results demonstrate that 4 represents a novel, weakly antiferromagnetically coupled homovalent dimer (J = -0.85 cm-1). The two formally Mn0 ions are both high spin (S = 3/2) and exhibit a zero-field splitting of ≈1 cm-1, suggesting reduction of the complex is substantially ligand centered, and may be better described as a MnII complex coupled to two open shell singlet ligands [MnII2(MeL2-)2]. X-ray crystallography, UV-Vis spectroscopy and DFT analysis support this finding.