Abstract
This chapter documents nickel aryl and alkyl complexes. The complexes are organized by their supporting ligands such as tridentate, bidentate and monodentate ligands. Pincer ligands stabilize a variety of organonickel complexes that have enabled fundamental studies, but often lack catalytic reactivity. A variety of bidentate ligands have found applications in olefin polymerization and cross-coupling reactions. Monodentate NHC and phosphine ligands can support low-coordinate nickel complexes. The past two decades have witnessed the advancements in low-valent, high-valent, and mixed-valent nickel complexes. Monovalent nickel complexes can activate electrophiles to generate radicals, which is relevant to their catalytic reactivity. High-valent nickel complexes can mediate facile reductive elimination to form various bonds. Several monometallic and multimetallic nickel complexes serve as the biomimetic model of nickel-containing metalloenzymes and exhibit relevant reactivity. Ligand redox-activity and metal-ligand cooperativity are common methods for tuning the reactivity of nickel complexes.
Original language | English (US) |
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Title of host publication | Comprehensive Organometallic Chemistry IV |
Subtitle of host publication | Volume 1-15 |
Publisher | Elsevier |
Pages | 271-356 |
Number of pages | 86 |
Volume | 1-15 |
ISBN (Electronic) | 9780323913508 |
DOIs | |
State | Published - Jan 1 2022 |
Keywords
- Alkylidenes
- Cross-coupling
- Dinuclear nickel
- High-valent
- Low-valent
- Metal-ligand cooperativity
- Mixed-valent
- Nickel alkyl
- Nickel aryl
- Olefin polymerization
- Organonickel
- Redox-activity
ASJC Scopus subject areas
- General Chemistry