1997
DOI: 10.1016/s0277-5387(97)00040-5
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The preparation and X-ray structure of [M{SePPh2)2N}2], M = Ni, Pd, Pt

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Cited by 42 publications
(23 citation statements)
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“…In the case of 2, the Ni-O bond lengths are very similar to those found in pseudotetrahedral Ni[(OPPh 2 )(SPPh 2 )N] 2 (average 1.953 A ˚), 17 whereas the Ni-Se bond lengths are greater compared to those found in square planar Ni[(SePPh 2 ) 2 N] 2 (average 2.350 A ˚). 34 It is of interest that replacement of two Se by two O atoms in the latter complex converts its square planar structure to pseudo- 17 The dihedral angle between the O1NiSe1 and O2NiSe2 chelate planes (84.99 • ) is similar to that in Ni[(OPPh 2 )(SPPh 2 )N] 2 (85.34 • ), but significantly larger than in Ni[(OPPh 2 )(SPMe 2 )N] 2 (79.75 • ), the latter showing larger deviations from the ideal tetrahedral geometry, most likely due to the extra asymmetry induced by the presence of different peripheral groups bonded to the P atom of the ligand. 17 The X-ray structure of the protonated ligand (OPPh 2 )(SePPh 2 )NH has not yet been solved, but structural comparisons of 1 and 2 could be made with the crystallographically characterized {[OP(OPh) 2 ][SePPh 2 ]}NH ligand: 54 The P-N-P angles of 1 (133.9 • and 135.7 • ) are increased slightly compared to the corresponding angle in the ligand (131.8 • ).…”
Section: Molecular Structures Of the Complexesmentioning
confidence: 99%
“…In the case of 2, the Ni-O bond lengths are very similar to those found in pseudotetrahedral Ni[(OPPh 2 )(SPPh 2 )N] 2 (average 1.953 A ˚), 17 whereas the Ni-Se bond lengths are greater compared to those found in square planar Ni[(SePPh 2 ) 2 N] 2 (average 2.350 A ˚). 34 It is of interest that replacement of two Se by two O atoms in the latter complex converts its square planar structure to pseudo- 17 The dihedral angle between the O1NiSe1 and O2NiSe2 chelate planes (84.99 • ) is similar to that in Ni[(OPPh 2 )(SPPh 2 )N] 2 (85.34 • ), but significantly larger than in Ni[(OPPh 2 )(SPMe 2 )N] 2 (79.75 • ), the latter showing larger deviations from the ideal tetrahedral geometry, most likely due to the extra asymmetry induced by the presence of different peripheral groups bonded to the P atom of the ligand. 17 The X-ray structure of the protonated ligand (OPPh 2 )(SePPh 2 )NH has not yet been solved, but structural comparisons of 1 and 2 could be made with the crystallographically characterized {[OP(OPh) 2 ][SePPh 2 ]}NH ligand: 54 The P-N-P angles of 1 (133.9 • and 135.7 • ) are increased slightly compared to the corresponding angle in the ligand (131.8 • ).…”
Section: Molecular Structures Of the Complexesmentioning
confidence: 99%
“…The coordination of selenium to transition metals has also been explored by employing the so called dichalcogenidoimidodiphosphinato ligands, R 2 P(E)NHP(E′)R′ 2 (E, E′ = O, S, Se, Te; R, R ′ = alkyl or aryl groups) . Among this family of chelating ligands, L = [Ph 2 P(Se)NP(Se)Ph 2 ] – , containing E = E′ = Se as donor atoms, and R = R′ = Ph as peripheral groups bonded to the P atoms of the P–N–P backbone, has afforded the following structurally characterized homoleptic complexes with first series transition metal ions (structures deposited in the Cambridge Structural Database, CSD): octahedral M III L 3 , M = V, Cr, tetrahedral M II L 2 , M = Mn, Co, Zn, square planar Ni II L 2 and tetranuclear [Cu I 4 L 3 ]BF 4 …”
Section: Introductionmentioning
confidence: 99%
“…[11,12] The di-chalcogenoimido-diphosphinto bismuth compounds, Bi[(EPR 2 ) 2 N] 3 (E = S, Se; R = Ph, iPr), were found to be ideal www.zaac.wiley-vch.de ARTICLE for use as single-source precursors as they are air-stable and readily obtainable in good synthetic yields. [13] The diselenoimido-diphosphinato ligand can also stabilize a wide range of metal coordination spheres including alkali metals, [14][15] group 12, [16] group 13, [17,18] group 14, [19,20,16] group 15, [21] group 16, [22,23] transition metals (V and Cr, [24] Mn [25,26] and Re, [27] Ru, Rh, Ir, [15,28,29] Os, [30] Co, [31] group 10: Ni, [32] Pd, [32,[33][34][35] Pt, [14,30,34] and group 11: [35] , and rare earth metals. [36,37] This could be due to the flexible nature of the ligand moieties, which adopt to several metallacyclic rings depending upon the coordination to the central metal atom.…”
Section: Introductionmentioning
confidence: 99%