The new compound [(NC)Ru2(ap)4]2(μ-1,4-C6H4) (ap = 2-anilinopyridinate) was prepared to address the open question of whether a 1,4-phenylene bridge can mediate intermetallic electronic coupling. As a manifestation of strong coupling,...
The variation of the substituents (X = 3,5-(OMe)2; 3-iPrO) on the bridging ligand results in improved solubility of Ru2-aryl compounds, while the aryl substitution significantly influences the potentials of the Ru2-based redox couples.
Reported herein is a new series of diruthenium(III,III)
bisalkynyl
and bisaryl diruthenium(III,III) compounds supported with 2-amino-3-(trifluoromethyl)pyridinate
(amtfmp). Using Ru2(amtfmp)4Cl2 from
a modified preparation, cis 2:2 Ru2(amtfmp)4(CCPh)2 (1), cis 2:2 Ru2(amtfmp)4(Ph)2 (2), and 3:1 Ru2(amtfmp)4(Ph)2 (3) were synthesized via a lithium–halogen exchange
reaction using LiC2Ph and LiPh, respectively. Compounds 1–3 are all Ru2(III,III) species
with a ground-state configuration of π4δ2(π*)4 (S = 0) and were characterized
via mass spectrometry, electron absorption and 1H/19F NMR spectroscopies, and voltammetry. The molecular structures
of 1–3 were established using single-crystal
X-ray diffraction analysis, and preliminary density functional theory
analysis was performed to elaborate the electronic structures of 1 and 2. Comparisons of the electrochemical properties
of 1–3 against the Ru2(amtfmp)4Cl2 starting material reveal cathodic
shifts of the Ru2
7+/6+ oxidation and the Ru2
6+/5+ and Ru2
5+/4+ reduction
potentials. In comparison to related Ru2(III,III) bisalkynyl
and bisaryl compounds, the electrode potentials for 1–3 are anodically shifted up to ca. 0.95 V, highlighting the strong electron-withdrawing nature of the
amtfmp ligand.
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