Structural, Spectroscopic, and Theoretical Elucidation of a Redox-Active Pincer-Type Ancillary Applied in Catalysis

Structural, Spectroscopic, and Theoretical Elucidation of a Redox-Active Pincer-Type Ancillary Applied in Catalysis

Pincer-type ligands are believed to be very robust scaffolds that can support multifarious functionalities as well as highly reactive metal motifs applied in organometallic chemistry, especially in the realm of catalysis. In this paper, we describe the redox and, therefore, noninnocent behavior of a...

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Veröffentlicht in:Journal of the American Chemical Society 2008-03, Vol.130 (11), p.3676-3682
Hauptverfasser: Adhikari, Debashis, Mossin, Susanne, Basuli, Falguni, Huffman, John C, Szilagyi, Robert K, Meyer, Karsten, Mindiola, Daniel J
Format: Artikel
Sprache:eng
Schlagworte:
Catalysis
Cations - chemical synthesis
Cations - chemistry
Electron Spin Resonance Spectroscopy - methods
Free Radicals - chemical synthesis
Free Radicals - chemistry
Ligands
Models, Molecular
Nickel - chemistry
Organometallic Compounds - chemical synthesis
Organometallic Compounds - chemistry
Oxidation-Reduction
Quantum Theory
Spectrometry, X-Ray Emission - methods
Spectrophotometry, Ultraviolet - methods
X-Ray Diffraction
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Zusammenfassung:Pincer-type ligands are believed to be very robust scaffolds that can support multifarious functionalities as well as highly reactive metal motifs applied in organometallic chemistry, especially in the realm of catalysis. In this paper, we describe the redox and, therefore, noninnocent behavior of a PNP (PNP- = N[2-P(CHMe2)2-4-methylphenyl]2) pincer ancillary bound to nickel. A combination of structural, spectroscopic, and theoretical techniques suggests that this type of framework can house an electron hole when coordinated to Ni(II).
ISSN:0002-7863
1520-5126
DOI:10.1021/ja7108486