Scrivener Sarah G, Wang Yi-Ming
Department of Chemistry, University of Pittsburgh Pittsburgh Pennsylvania 15260 USA
Chem Sci. 2024 May 1;15(23):8850-8857. doi: 10.1039/d4sc00655k. eCollection 2024 Jun 12.
Cyclopentadienyliron(ii) dicarbonyl complexes capable of coordinating to and enhancing the acidity of a range of unsaturated substrates have emerged as a new class of base-metal derived catalysts for C-H functionalization. In this manuscript, the iron-catalyzed C-H functionalization of allylic C(sp)-H bonds using nitrogen containing α,β-unsaturated carbonyl compounds as coupling partners is reported. Employing a cationic cyclopentadienyliron dicarbonyl complex, this redox neutral process converts simple alkenes into allylic anion equivalents for 1,4-addition into maleimides, acyclic α,β-unsaturated imides, and vinylogous amides. The judicious pairing of pyridine and alkylamine bases with Lewis acid additives allowed each of these classes of substrates to be successfully employed, allowing for the formation of a diverse collection of cyclic and acyclic nitrogen-containing compounds featuring C-C unsaturation. The resulting Michael adducts can be further transformed into a variety of useful scaffolds such as allylated pyrroles, pyrrolidines, and carbocyclic acids.
能够与一系列不饱和底物配位并增强其酸度的环戊二烯基铁(II)二羰基配合物已成为一类新型的用于C-H官能化的贱金属衍生催化剂。在本论文中,报道了以含氮α,β-不饱和羰基化合物作为偶联伙伴的铁催化烯丙基C(sp)-H键的C-H官能化反应。采用阳离子环戊二烯基铁二羰基配合物,这种氧化还原中性过程将简单烯烃转化为烯丙基阴离子等价物,用于对马来酰亚胺、无环α,β-不饱和酰亚胺和烯醇酰胺进行1,4-加成反应。吡啶和烷基胺碱与路易斯酸添加剂的合理搭配使得这些底物类别均能成功应用,从而形成了一系列具有C-C不饱和键的环状和无环含氮化合物。所得的迈克尔加成产物可进一步转化为各种有用的骨架结构,如烯丙基化吡咯、吡咯烷和碳环酸。
