Role of Mediator and Effects of Temperature on ortho-C–N Bond Fusion Reactions of Aniline Using
Ruthenium Templates: Isolation and Characterization of New Ruthenium
Complexes of the in-Situ-Generated Ligands
posted on 2017-04-20, 16:06authored bySuman K. Roy, Debabrata Sengupta, Santi Prasad Rath, Tanushri Saha, Subhas Samanta, Sreebrata Goswami
In this work, ortho-C–N bond fusion reactions of aniline are followed
by the use of two different ruthenium mediators. Reaction of aniline
with [RuIII(terpy)Cl3] (terpy = 2,2′:6′,2″-terpyridine)
resulted in a trans bis-aniline ruthenium(II) complex
[1]+ which upon oxidation with
H2O2 produced compound [2]+ of a bidentate ligand, N-phenyl-1,2-benzoquinonediimine,
due to an oxidative ortho-C–N bond fusion
reaction. Complex [1]+ and aniline
(neat) at 185 °C produced a bis-chelated ruthenium complex (3). A previously reported complex [RuII(N-phenyl-1,2-benzoquinonediimine)(aniline)2(Cl)2] (5) undergoes similar oxidation by air at 185
°C to produce complex [3]. A separate chemical reaction
between aniline and strongly oxidizing tetra-n-propylammonium
perruthenate [(n-pr)4N]+[RuO4]− in air produced a ruthenium complex [4] of a N4-tetraamidophenylmacrocycle ligand via
multiple ortho-C–N bond fusion reaction. Notably,
the yield of this product is low (5%) at 100 °C but increases
to 25% in refluxing aniline. All these complexes are characterized
fully by their physicochemical characterizations and X-ray structure
determination. From their structural parameters and other spectroscopic
studies, complex [2]+ is assigned
as [RuII(terpy)(N-phenyl-1,2-benzoquinonediimine)(Cl)]+ whereas complex [4] is described as a ruthenium(VI)
complex comprised of a reduced deprotonated N-phenyl-1,2-diamidobenzene
and N4-tetraamidophenylmacrocyclic ligand. Complex [2]+ exhibits one reversible oxidation
at 1.32 V and one reversible reduction at −0.75 V vs Ag/AgCl
reference electrode. EPR of the electrogenerated complexes has revealed
that the oxidized complex is a ruthenium(III) complex with an axial
EPR spectrum at gav= 2.06. The reduced
complex [2], on the other hand, shows a single-line EPR
signal at gav= 1.998. In contrast, complex
[4] shows two successive one-electron oxidation waves
at 0.5 and 0.8 V and an irreversible reduction wave at −0.9
V. EPR studies of the oxidized complexes [4]+ and [4]2+ reveal that oxidations are ligand
centered. DFT calculations were employed to elucidate the electronic
structures as well as the redox processes associated with the above
complexes. Aerial ortho-C–N bond fusion reactions
of aniline using two different mediators, viz. [RuIII(terpy)Cl3] and [(n-pr)4N]+[RuO4]−, have been followed. It is found that
in the case of oxidizable Ru(III) mediator complex, C–N bond
fusion is limited only to dimerization reaction whereas the high-valent
Ru(VII) salt mediates multiple C–N bond fusion reactions leading
to the formation of a novel tetradentate N4-tetraamidophenylmacrocyclic
ligand. Valence ambiguity in the complexes of the resultant redox-active
ligands is scrutinized.