Fine Tuning of the Electronic Coupling between Metal Centers in Cyano-Bridged Mixed-Valent Trinuclear Complexes

Abstract: We report the synthesis, characterization, and spectroscopic properties of a family of trinuclear cyano-bridged mixed-valent compounds, trans-[Ru(II)L(4)[NCFe(III)(CN)(5)](2)](4-), trans-[Ru(II)L(4)[CNFe(III)(CN)(5)](2)](4-), and cis-[Ru(II)(bpy)(2)[NCFe(III)(CN)(5)](2)](4-) (L = pyridine, 4-tert-butylpyridine, and 4-methoxypyridine). Tetraphenylphosphonium salts of complexes trans-[Ru(II)L(4)[NCFe(III)(CN)(5)](2)](4-) (L = pyridine and 4-tert-butylpyridine) crystallize in the space groups C2 and P2(1)/c, resp… Show more

“…The spectrum of 1 4-in acetonitrile closely resembles that observed for the Fe III analogue, [10] with a metal-to-ligand charge transfer (MLCT) transition, Ru II Ǟπ*(dmap), at 29100 cm -1 (ε = 30200 m -1 cm -1 ) and an MMЈCT transition at 8500 cm -1 (ε = 14200 m -1 cm -1 ) (Figure 2). The main difference relies on the intensity of the MMЈCT band, which suggests a stronger interaction between the metal ions through the cyanido bridge as expected for the replacement of a first-row transition metal ion for a third-row one.…”

“…The crystal structure of 1 4- (Figure 1) displays a linear and totally eclipsed configuration of the three coordination spheres, where the three metal centres are connected by two cyanido bridges as observed in other related trinuclear complexes previously reported. [10] Remarkably, the Ru-N(dmap) mean bond length (2.089 Å) is between the value observed for this Ru-N bond length in the Ru II cyanide trinuclear complex trans-…”

“…[10] ) and the value observed for the Ru-N bond length in the Ru III -containing trinuclear compound [(dmap) 4 Figure S1). Additionally, the C-N bridge bond is slightly longer [1.170(9) Å in 1 4- vs. 2.043 Å for the mean cis Os-C bond length].…”

Structural and Spectroscopic Evidence of Strong Electronic Delocalization through a Cyanido Bridge in a Mixed‐Valence Os–Ru Complex

“…The spectrum of 1 4-in acetonitrile closely resembles that observed for the Fe III analogue, [10] with a metal-to-ligand charge transfer (MLCT) transition, Ru II Ǟπ*(dmap), at 29100 cm -1 (ε = 30200 m -1 cm -1 ) and an MMЈCT transition at 8500 cm -1 (ε = 14200 m -1 cm -1 ) (Figure 2). The main difference relies on the intensity of the MMЈCT band, which suggests a stronger interaction between the metal ions through the cyanido bridge as expected for the replacement of a first-row transition metal ion for a third-row one.…”

“…The crystal structure of 1 4- (Figure 1) displays a linear and totally eclipsed configuration of the three coordination spheres, where the three metal centres are connected by two cyanido bridges as observed in other related trinuclear complexes previously reported. [10] Remarkably, the Ru-N(dmap) mean bond length (2.089 Å) is between the value observed for this Ru-N bond length in the Ru II cyanide trinuclear complex trans-…”

“…[10] ) and the value observed for the Ru-N bond length in the Ru III -containing trinuclear compound [(dmap) 4 Figure S1). Additionally, the C-N bridge bond is slightly longer [1.170(9) Å in 1 4- vs. 2.043 Å for the mean cis Os-C bond length].…”

Structural and Spectroscopic Evidence of Strong Electronic Delocalization through a Cyanido Bridge in a Mixed‐Valence Os–Ru Complex

“…Knowledge of V DA is of great importance for the rational design of new bridges and for understanding the role of the bridge in electron-exchange processes [107][108][109][110]. According to super-exchange theory, the coupling element will decrease exponentially with increasing distance (R) between donor and acceptor [111].…”

“…The coupling element can also be related to the energy gap ðE DB Þ between orbitals on the donor and on the bridge (Fig. 2.12) [107][108][109][110].…”

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Cyanide‐Bridged Complexes of Transition Metals: A Molecular Magnetism Perspective