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Abstract Organic derivatives of nitric oxide can serve as ligands for transition metals in a variety of fashions. This review surveys recent developments in the coordination chemistry of four main… Click to show full abstract
Abstract Organic derivatives of nitric oxide can serve as ligands for transition metals in a variety of fashions. This review surveys recent developments in the coordination chemistry of four main classes of organic NO derivatives: nitrosoalkanes and nitrosoarenes, azodioxides, and nitrosamines. Highlighted work includes evidence that nitrosoarenes can behave as redox-active (“non-innocent”) ligands, an expansion in the number of crystallographically characterized azodioxide complexes, and the synthesis of N-bound primary nitrosamines. Relevance to the bioinorganic chemistry of metalloenzymes is noted.
Journal Title: Coordination Chemistry Reviews
Year Published: 2019
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