Polar Organometallic Reagents. Группа авторов

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Polar Organometallic Reagents - Группа авторов


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to promote selective reaction. This is a methodology that has come to represent one of the most effective ways of regiospecifically elaborating functionalized aromatic systems and which has, over a number of years, focused on the strategy of achieving ortho reaction of said ring. Though this technique has come to the fore in the elaboration of both aromatic and heteroaromatic systems, the low acidity of the hydrogen atoms on aromatic rings has led to a dependence on organolithium reagents as the base of choice for effecting deprotonation [4–8]. However, the high nucleophilicity of these same organolithium reagents has brought with it the associated risk of competing reaction at the DMG itself. It was the need to overcome this synthetic limitation that led to the development of the heterobimetallic complexes alluded to above, designed to promote chemoselective directed metalation reactions under mild conditions on the grounds of reduced nucleophilicity. This has now seen a range of zincates and other metal ate complexes incorporating the sterically bulky (non‐nucleophilic) 2,2,6,6‐tetramethylpiperidide ligand (TMP) successfully used to elaborate functionalized aromatics incorporating DMGs normally susceptible to competing nucleophilic degradation. The first work in this field appeared in 1999 when Kondo and coworkers reported the directed zincation of a functionalized aromatic compound. This was achieved using the, at that stage, putative base t‐Bu2Zn(TMP)Li 1 (Figure 1.1b and Scheme 1.1) and avoided the normal (for organolithium reagents) requirement of temperatures below room temperature (r.t.) [9]. This key advance led to an explosion of interest in developing the concept of tunable ate complex reagents in directed metalation chemistry.

       1.2.1 Monometallic Bases


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