2013
DOI: 10.1002/ejic.201300115
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Dichotomy between Palladium(II)–Tin(II) and Palladium(0)–Tin(IV) in Complexes of a Sn,As‐Based Chelate Ligand

Abstract: A dinuclear Pd–Sn bonded complex is reported, in which the interaction of the formally tin(II)‐based ligand, [2‐MeBrSnC6F4AsPh2]–, with palladium appears to be best described as PdI–SnIII or Pd0–SnIV.

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Cited by 10 publications
(11 citation statements)
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“…[18e] Thus, the S2ÀRh1ÀSb1ÀN2 torsiona ngle (408)i s noticeably wider than the corresponding dihedral angles of the other three pyS ligands, and the Sb1-N2d istance (involving the Natom of the RhÀSÀRh bridging pyS ligand) is the longest in the range of 2.27 to 2.68 .T he average Sb-N distance in 1 (2.43 )i sc omparable to those found for Sb III complexes with electronegative substituents and coordinated pyridine (e.g.,S bCl 2 N 3 (py) 2 : [19] 2.43 ;[ (py)Sb(1,2-O 2 C 6 H 4 )O] 2 : [20] 2.49 ). Furthermore, the average CÀS( 1.738(2) vs. 1.736(3) )a nd CÀNb ond lengths (1.348(3) vs. 1.346(8) )o ft he bridging pyS ligands did not change significantly upon oxidizing 1 to 2.A lso, in both complexes, the two CÀNb ond lengths within each pyS moietya re very similar to each other (N 1 ÀC 2 1.347(3) vs. N 1 ÀC 6 1.349(3) in 1,N 1 ÀC 2 1.338 (8) vs. N 1 ÀC 6 1.354 (8) in 2). 2.36 )a re significantly shorter than the Rh-S contacts trans to Sb (2.53 )a nd are comparable to those found in Rh(pyS) 3 (avg.…”
Section: Synthesessupporting
confidence: 63%
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“…[18e] Thus, the S2ÀRh1ÀSb1ÀN2 torsiona ngle (408)i s noticeably wider than the corresponding dihedral angles of the other three pyS ligands, and the Sb1-N2d istance (involving the Natom of the RhÀSÀRh bridging pyS ligand) is the longest in the range of 2.27 to 2.68 .T he average Sb-N distance in 1 (2.43 )i sc omparable to those found for Sb III complexes with electronegative substituents and coordinated pyridine (e.g.,S bCl 2 N 3 (py) 2 : [19] 2.43 ;[ (py)Sb(1,2-O 2 C 6 H 4 )O] 2 : [20] 2.49 ). Furthermore, the average CÀS( 1.738(2) vs. 1.736(3) )a nd CÀNb ond lengths (1.348(3) vs. 1.346(8) )o ft he bridging pyS ligands did not change significantly upon oxidizing 1 to 2.A lso, in both complexes, the two CÀNb ond lengths within each pyS moietya re very similar to each other (N 1 ÀC 2 1.347(3) vs. N 1 ÀC 6 1.349(3) in 1,N 1 ÀC 2 1.338 (8) vs. N 1 ÀC 6 1.354 (8) in 2). 2.36 )a re significantly shorter than the Rh-S contacts trans to Sb (2.53 )a nd are comparable to those found in Rh(pyS) 3 (avg.…”
Section: Synthesessupporting
confidence: 63%
“…[4] For heterobimetallic Pd/Sn systems featuring mt [5] or pyS [6] ligands, the charged elocalization within the bridging ligands leads to more ambiguous assignment of bondings ituations between the metal atoms, that is, it raises the question of whether the Group 14 elements (E 14 ) should be referred to as s-acceptor (TM!E 14 , III Z )o rs-donor (TM ! E 14 , III L ), or the intermediate case with ac ovalent metalmetal bond (TMÀE 14 , III X ,S cheme 1; this feature was also reportedf or related complexes bearing 2-pyridyldiphenylphosphine [7] or ortho-metallated arsines [8] as bridgingligands).…”
Section: Introductionmentioning
confidence: 60%
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“…This is in accordance with the valuesc alculated for comparable PtSn 2containing compounds. [44] In order to get deeper insight into this exciting electronic situation we performed a charge-decomposition analysis. Together with the charge for Pt of + 0.12, this is indicative for the Sn IV !…”
Section: Elucidation Of the Nature Of The Sn-pt Bond By Dft Calculationsmentioning
confidence: 99%