Abstract
The addition of PPh2H, PPhMeH, PPhH2, P(para-Tol)H2, PMesH2 and PH3 to the two-coordinate Ni0 N-heterocyclic carbene species [Ni(NHC)2] (NHC=IiPr2, IMe4, IEt2Me2) affords a series of mononuclear, terminal phosphido nickel complexes. Structural characterisation of nine of these compounds shows that they have unusual trans [H−Ni−PR2] or novel trans [R2P−Ni−PR2] geometries. The bis-phosphido complexes are more accessible when smaller NHCs (IMe4>IEt2Me2>IiPr2) and phosphines are employed. P−P activation of the diphosphines R2P−PR2 (R2=Ph2, PhMe) provides an alternative route to some of the [Ni(NHC)2(PR2)2] complexes. DFT calculations capture these trends with P−H bond activation proceeding from unconventional phosphine adducts in which the H substituent bridges the Ni−P bond. P−P bond activation from [Ni(NHC)2(Ph2P−PPh2)] adducts proceeds with computed barriers below 10 kcal mol−1. The ability of the [Ni(NHC)2] moiety to afford isolable terminal phosphido products reflects the stability of the Ni−NHC bond that prevents ligand dissociation and onward reaction.
Original language | English |
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Pages (from-to) | 13221-13234 |
Number of pages | 14 |
Journal | Chemistry - A European Journal |
Volume | 27 |
Issue number | 52 |
Early online date | 4 Aug 2021 |
DOIs | |
Publication status | Published - 15 Sept 2021 |
Keywords
- carbene ligands
- density functional calculations
- hydride ligands
- nickel
- phosphido ligands
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CCDC 2009924: Experimental Crystal Structure Determination
Sabater, S. (Creator), Schmidt, D. (Creator), Schmidt, H. (Creator), Kuntze-Fechner, M. W. (Creator), Zell, T. (Creator), Isaac, C. J. (Creator), Rajabi, N. A. (Creator), Grieve, H. (Creator), Blackaby, W. J. M. (Creator), Lowe, J. P. (Creator), Macgregor, S. A. (Creator), Mahon, M. F. (Creator), Radius, U. (Creator) & Whittlesey, M. K. (Creator), Cambridge Crystallographic Data Centre, 2021
DOI: 10.5517/ccdc.csd.cc25gh8f
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