Steric and Electronic Effects in the Formation and Carbon Disulfide Reactivity of Dinuclear Nickel Complexes Supported by Bis(iminopyridine) Ligands

Bheemaraju, Amarnath; Beattie, Jeffrey W.; Tabasan, Erwyn G.; Martin, Philip D.; Lord, Richard L.; Groysman, Stanislav

doi:10.1021/om400187v

Cited by 23 publications

(14 citation statements)

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“…We have been exploring the coordination chemistry and reactivity of mononuclear and dinuclear complexes with iminopyridine ligands in the activation of small molecules, in particular CS 2 and CO 2 . We have previously reported that the bidentate iminopyridine ligand [NN] enables side-on coordination of CS 2 at square-planar Ni centers, Ni[NN](η 2 -CS 2 ). , However, in spite of the significant elongation of the metal-bound C–S bond, no C–S bond breaking (or C–C bond formation) was observed.…”

Section: Introductionmentioning

confidence: 99%

Coordination Chemistry and Reactivity of Bis(aldimino)pyridine Nickel Complexes in Four Different Oxidation States

et al. 2017

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A series of nickel complexes with potentially redox active bis(aldimino)pyridine ligands [NNN] ([NNN] = 1,1′-(pyridine-2,6-diyl)bis(N-arylmethanimine), where aryl = 2, 6-diisopropylphenyl, mesityl, 4-methoxyphenyl, 4-trifluoromethylphenyl, and 3,5-bis-(trifluoromethyl)phenyl) were synthesized, and their properties and reactivities were investigated as a function of the overall oxidation state of the system. (Ni[NNN]) 2+ complexes of ligands featuring bulky electron-rich substituents (1a-Br 2 and 1b-Br 2 , [NNN] = 1,1′-(pyridine-2,6-diyl)bis(N-(2,6-diisopropylphenyl)methanimine) and 1,1′-(pyridine-2,6-diyl)bis(N-mesitylmethanimine), respectively) demonstrated five electrochemical reduction events, the first three of which were quasi-reversible. In contrast, only two quasi-reversible reductions were observed for the less bulky and electron-deficient N-aryl substituents 4-(trifluoromethyl)phenyl and 3,5-bis(trifluoromethyl)phenyl. Chemical reduction of 1a-Br 2 and 1b-Br 2 with 1 equiv of KC 8 or CoCp* 2 forms (Ni[NNN]) + complexes of the general formula Ni[NNN]Br (2a-Br and 2b-Br). Structural, spectroscopic, and theoretical studies reveal that these complexes feature significant unpaired spin density on the metal, consistent with "nickel(I)" character. This behavior is in contrast with previously reported bis(ketimino)pyridine systems, in which at the (Ni[NNN]) + state the unpaired electron resided exclusively in the ligand. Further reduction forms a series of (Ni[NNN]) 0 complexes, in which all of the potentially tridentate [NNN] ligands bind via only one iminopyridine unit; the second arm is left unbound in most complexes. Variable temperature NMR spectroscopy demonstrates that bound and unbound arms exchange via a postulated tridentate intermediate. Electrochemical reduction, via three sequential one-electron reductions, of 1a-Br 2 and 1b-Br 2 in the presence of CO 2 /H + forms an active catalyst for H 2 evolution at a glassy-carbon electrode surface, again emphasizing the unique redox chemistry of the bulky bis(aldimino)pyridine nickel complexes.

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Section: Introductionmentioning

confidence: 99%

Coordination Chemistry and Reactivity of Bis(aldimino)pyridine Nickel Complexes in Four Different Oxidation States

et al. 2017

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“…The geometry of the Ni{η 2 ‐SC(P n PrPh 2 ) 2 } unit can be compared to the structures of previously studied nickel complexes of carbon disulfide, Ni(η 2 ‐CS 2 )(dtbpe) (dtbpe=1,2‐bis(di‐ tert ‐butyl‐phosphino)ethane and Ni(η 2 ‐CS 2 )(P‐alkenephosphor‐amidite) 2 . In Ni(η 2 ‐CS 2 )(dtbpe) these distances are: Ni−S, 2.147(2) Å; Ni−C, 1.922(5) Å, C−S, 1.732(6) Å . In Ni( η 2 ‐CS 2 )(P‐alkene phosphoramidite) 2 they are: Ni−S, 2.1529(8) Å; Ni−C, 1.913(3) Å; S−C, 1.685(3) Å .…”

Section: Resultsmentioning

confidence: 99%

“…[33] In Ni(h 2 -CS 2 )(dtbpe) these distances are:N i ÀS, 2.147(2) ;N i ÀC, 1.922(5) ,C ÀS, 1.732 (6) . [29,32] In Ni(h 2 -CS 2 )(P-alkene phosphoramidite) 2 they are:N i ÀS, 2.1529 (8) ;N i ÀC, 1.913(3) ;S ÀC, 1.685(3) . [33] There is ap articularlys trong similarity in the h 2 -CSNi units in [Ni{h 2 -SC(P n PrPh 2 ) 2 }Br(P n PrPh 2 )]Br·0.5CS 2 (1)a nd in Ni(h 2 -CS 2 )(dtbpe).…”

Section: Scheme3simple Electronic Structures Of the Ligands In Compomentioning

confidence: 99%

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Cleavage of Carbon Disulfide by n‐Propyldiphenylphosphine and Nickel(II) Bromide

Powers

Aristov

deGuzman

et al. 2019

Chemistry A European J

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Carbon disulfide is cleaved by n‐propyldiphenylphosphine and nickel(II) bromide in a one‐step process, to form two unprecedented complexes: orange, [Ni(S2C2(PnPrPh2)2)Br(PnPrPh2)]Br⋅CS2 (1) and purple [Ni{η2‐SC(PnPrPh2)2}Br(PnPrPh2)]Br⋅0.5CS2 (2). Orange (1) contains a dithiolene‐related ligand that results from carbon–carbon bond formation, while purple (2) contains a remarkable ligand in which two n‐propyldiphenylphosphine molecules have added to a carbon atom of a CS unit that is coordinated to nickel.

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“…[8][9][10][11][12][13][14][15][16][17][18] Further transformations of these substrates can be achieved via cleavage of the carbon-sulfur bond, similar to sulfur abstraction observed in low valent transition metal complexes. 34,35 Based on our interest in utilizing reactive metal-carbon bonds for activation of small molecules, [36][37][38][39][40][41][42] we investigated reactions of sulfur containing heteroallenes toward coordinatively unsaturated hydrotris( pyrazolyl)borate nickel(II) alkyl complexes. [22][23][24][25][26][27][28][29] The carbon-sulfur bonds in CS 2 are less susceptible to metal-mediated cleavage, [30][31][32][33] however, and the reactivity of the insertion products is a function of their structures.…”

Section: Introductionmentioning

confidence: 99%

Activation of heteroallenes by coordinatively unsaturated nickel(ii) alkyl complexes supported by the hydrotris(3-phenyl-5-methyl)pyrazolyl borate (Tp^Ph,Me) ligand

et al. 2016

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Activation of sulfur containing heteroallenes by nickel(ii) alkyl complexes supported by the bulky hydrotris(3-phenyl-5-methylpyrazolyl)borate (Tp(Ph,Me)) ligand is described. Exposure of Tp(Ph,Me)NiCH2Ph (1a) and Tp(Ph,Me)NiCH2Si(CH3)3 (1b) to CS2 resulted in formation of the insertion products Tp(Ph,Me)Ni(η(2)-CS2)CH2Ph (2a) and Tp(Ph,Me)Ni(η(2)-CS2)CH2Si(CH3)3 (2b) in moderate yields. Reaction of 1a and MeNCS produced two species in a 1 : 1 ratio, identified as Tp(Ph,Me)Ni(η(2)-MeNC)CH2Ph (3) and Tp(Ph,Me)Ni(η(2)-MeNCS)SCH2Ph (4). Isolation of the unexpected insertion product (3) prompted an investigation into the activity of 1a-b in the presence of isocyanides (i.e.(t)BuNC), which resulted in isolation of Tp(Ph,Me)Ni(η(2-t)BuNC)CH2Ph (5a) and Tp(Ph,Me)Ni(η(2-t)BuNC)CH2Si(CH3)3 (5b). Similarly, reaction of 1a with OCS led to the isolation of a rare example of a Ni(i) carbonyl species Tp(Ph,Me)NiCO (6). Alternatively, complex 6 was also formed by exposure of 1a-b to an atmosphere of CO. Isolation of the intermediate species (Tp(Ph,Me)Ni(η(2)-CO)CH2TMS (7b) and Tp(Ph,Me)Ni(CO)(C(O)R, (8a-b) with R = Ph, TMS)) shed light on the formation of such species.

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Steric and Electronic Effects in the Formation and Carbon Disulfide Reactivity of Dinuclear Nickel Complexes Supported by Bis(iminopyridine) Ligands

Cited by 23 publications

References 50 publications

Coordination Chemistry and Reactivity of Bis(aldimino)pyridine Nickel Complexes in Four Different Oxidation States

Coordination Chemistry and Reactivity of Bis(aldimino)pyridine Nickel Complexes in Four Different Oxidation States

Cleavage of Carbon Disulfide by n‐Propyldiphenylphosphine and Nickel(II) Bromide

Activation of heteroallenes by coordinatively unsaturated nickel(ii) alkyl complexes supported by the hydrotris(3-phenyl-5-methyl)pyrazolyl borate (Tp^Ph,Me) ligand

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Steric and Electronic Effects in the Formation and Carbon Disulfide Reactivity of Dinuclear Nickel Complexes Supported by Bis(iminopyridine) Ligands

Cited by 23 publications

References 50 publications

Coordination Chemistry and Reactivity of Bis(aldimino)pyridine Nickel Complexes in Four Different Oxidation States

Coordination Chemistry and Reactivity of Bis(aldimino)pyridine Nickel Complexes in Four Different Oxidation States

Cleavage of Carbon Disulfide by n‐Propyldiphenylphosphine and Nickel(II) Bromide

Activation of heteroallenes by coordinatively unsaturated nickel(ii) alkyl complexes supported by the hydrotris(3-phenyl-5-methyl)pyrazolyl borate (TpPh,Me) ligand

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Activation of heteroallenes by coordinatively unsaturated nickel(ii) alkyl complexes supported by the hydrotris(3-phenyl-5-methyl)pyrazolyl borate (Tp^Ph,Me) ligand