Formation and Dissociation Kinetics and Crystal Structures of Nickel(II)−Macrocyclic Tetrathiaether Complexes in Acetonitrile. Comparison to Nickel(II)−Macrocyclic Tetramines

Kulatilleke, Chandrika P.; Goldie, Scott N.; Heeg, Mary Jane; Ochrymowycz, L. A.; Rorabacher, D. B.

doi:10.1021/ic991019+

Cited by 21 publications

(24 citation statements)

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“…Such a conformational rearrangement is well known for macrocyclic nickel tetraamine complexes and has also been proposed to be facilitated in tetrathioether complexes by the presence of two lone pairs (one of which is coordinated to the metal ion) at the thioether groups. [26] More specifically, another dinuclear compound with similar butterfly structure, 4 ], was reported to be nonrigid in solution, [27] the permutation of the two axial CO ligands at W occurring with an activation barrier of 65 kJ mol À1 , very close to that found for 3 + . This process was tentatively assigned to a mutual buckling of the {NiN 2 S 2 } and {W(CO) 4 } units or to a double inversion at the sulfur atoms, but an isomerization pathway similar to that proposed here for 3 + may also account for the fluxionality of [NiA C H T U N G T R E N N U N G (N 2 S 2 )W(CO) 4 ].…”

Section: Wwwchemeurjorgmentioning

confidence: 92%

Cyclopentadienyl Ruthenium–Nickel Catalysts for Biomimetic Hydrogen Evolution: Electrocatalytic Properties and Mechanistic DFT Studies

Canaguier

Vaccaro

Artero

et al. 2009

Chemistry A European J

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The new dinuclear nickel-ruthenium complexes [Ni(xbsms)RuCp(L)][PF(6)] (H(2)xbsms = 1,2-bis(4-mercapto-3,3-dimethyl-2-thiabutyl)benzene; Cp(-) = cyclopentadienyl; L = DMSO, CO, PPh(3), and PCy(3)) are reported and are bioinspired mimics of NiFe hydrogenases. These compounds were characterized by X-ray diffraction techniques and display novel structural motifs. Interestingly, [Ni(xbsms)RuCpCO][PF(6)] is stereochemically nonrigid in solution and an isomerization mechanism was derived with the help of density functional theory (DFT) calculations. Because of an increased electron density on the metal centers [Eur. J. Inorg. Chem. 2007, 18, 2613-2626] with respect to the previously described [Ni(xbsms)Ru(CO)(2)Cl(2)] and [Ni(xbsms)Ru(p-cymene)Cl](+) complexes, [Ni(xbsms)RuCp(dmso)][PF(6)] catalyzes hydrogen evolution from Et(3)NH(+) in DMF with an overpotential reduced by 180 mV and thus represents the most efficient NiFe hydrogenase functional mimic. DFT calculations were carried out with several methods to investigate the catalytic cycle and, coupled with electrochemical measurements, allowed a mechanism to be proposed. A terminal or bridging hydride derivative was identified as the active intermediate, with the structure of the bridging form similar to that of the Ni-C active state of NiFe hydrogenases.

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Section: Wwwchemeurjorgmentioning

confidence: 92%

Cyclopentadienyl Ruthenium–Nickel Catalysts for Biomimetic Hydrogen Evolution: Electrocatalytic Properties and Mechanistic DFT Studies

Canaguier

Vaccaro

Artero

et al. 2009

Chemistry A European J

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“…In [Ni( [14]ane-S 4 )]BF 4 (TTCDNI, Table 1) [36] and the perchlorate of a related macrocyclic complex (MAXSOT, Table 1), [37] moderate deviations from the octahedral shape result from relatively small differences between the bonded NiÀS distances (2.18 ) and the nonbonded contacts between the Ni atom and the BF 4…”

Section: Resultsmentioning

confidence: 99%

“…Although it would constitute an exciting research topic, it will encounter difficulties, because in many instances the magnetic behavior has gone unreported, and often the high-or low-spin nature of a complex is deduced from interatomic distance criteria without magnetic or spectral evidence. [37] Nevertheless, our shape analysis has allowed us to identify cases of significantly dissociated octahedra for which a lowspin behavior has been reported (see entries PTOCNI10 [38] and LATXOU [39] in Table 1). …”

Section: Resultsmentioning

confidence: 99%

Ligand Association/Dissociation Paths and Ill‐Defined Coordination Numbers

Ruiz‐Martínez

Casanova

Álvarez

2010

Chemistry A European J

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The continuous shape measures approach provides a means for handling the common situation in which a metal atom presents an ill-defined coordination number. Those cases are characterized by the presence of secondary interactions to Lewis bases at distances significantly longer than those expected for a chemical bond. Systematic ways of analyzing ligand association/dissociation pathways that describe such structures and their application to a variety of specific cases are presented. The concepts and methodology presented here apply to molecules and extended solids as well and provide, when needed, a more flexible and precise stereochemical description of the metal coordination sphere than that of an integer coordination number and the associated polyhedral shape.

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“…NaOH in pellets was added then until pH reached ca. is know to be slow in some cases, 9 the solution was allowed to equilibrate for up to 2 h and no modification of the emission values with time was observed. Fluoride, chloride and bromide were used as their tetrabutylammonium salt.…”

Section: General Methodsmentioning

confidence: 99%