62924-92-9Relevant articles and documents
One-Pot Twofold Unsymmetrical C-Si Bond 2,6-Bifunctionalization of Arenes via Sequential [1,4]-Csp2 to O-Silyl Migration
Wang, Kai,Li, Linjie,Hu, Tianbao,Gao, Lu,Song, Zhenlei
supporting information, p. 12583 - 12595 (2019/10/11)
Twofold unsymmetrical C-Si bond bifunctionalization of 2,6-di(trimethylsilyl) benzyl alcohols has been achieved in one pot via sequential [1,4]-Csp2 to O-silyl migration. The hydroxyl group functions as an "on-off-on" switch to control two successive silyl migrations, and 4,7-dimethyl-o-phenanthroline ligand favors cleavage of the endocyclic C-Si bond. Diverse Csp3/Csp3 or Csp2/Csp3 electrophiles can be installed at the 2- and 6-positions. This approach was used to chemoselectively functionalize the three C-Si bonds of 2,4,6-tri(trimethylsilyl) benzyl alcohol, transforming it into isochroman derivatives. The approach even works as a five-component reaction to construct complex symmetric structures.
Directed ortho metalation of n,n-diethyl benzamides. Methodology and regiospecific synthesis of useful contiguously tri- and tetra-substituted oxygenated aromatics, phthalides and phthalic anhydrides
De Silva,Reed,Billedeau,Wang,Norris,Snieckus
, p. 4863 - 4878 (2007/10/02)
Full experimental details for the directed ortho metalation approch to a variety of simple ortho-substituted N,N-diethyl benzamides (Table 1) and contiguously 1,2,3- and 1,2,3,4-substituted benzamides (Tables 2) are given. The efficient conversion of these benzamides (6, 10, 12, 13, 18, 19) into phthalides (9a-b, 16b-c, 17) and phthalic anhydrides (8,16a), compounds previously available by demanding, classical methods, is detailed. A short synthesis of iso-ochracinic acid (27) is described.
Directed Ortho Metalation of N,N-Diethylbenzamides. Silicon Protection of Ortho Sites and the o-Methyl Group
Mills, Robert J.,Taylor, Nicholas J.,Snieckus, Victor
, p. 4372 - 4385 (2007/10/02)
New general methodology of value in aromatic chemistry based on silicon protection of preferred ortho metalation sites in benzamides and o-methyl groups in o-toluamides (1, 2, Scheme I) is described.According to these methodologies, routes (Scheme II and V) to 1,2,5-, 1,2,4,5-, and 1,2,3-substituted aromatics with a variety of functionalities and oxidation states have been developed (Tables I and II).These tactics are used for the synthesis of difficult to access halo (10a-b, Scheme III) and methyl (21,25, Scheme VI) heterocycles.Ipso bromodesilylation reactions with bromine lead regiospecifically to o-bromobenzamides (12a,c, 14, Scheme IV).Walk-around-the-ring metalation processes provide highly substituted aromatics 27, 28, 29, and 30 (Scheme VII); the X-ray structure of the hexasubstituted derivative 30 shows a significant puckering of the aromatic ring.Cesium fluoride induced carbodesilylation of o-silylbenzamides with benzaldehyde affords, after TsOH cyclization, phthalides (31a-c, Scheme VIII) and constitutes a neutral alternative to the directed ortho metalation approach. α- and α,α-silylated o-toluamides are used in fluoride-mediated carbodesilylation (34a,d, Scheme IX) and desilylative Peterson olefination (35, Scheme X) procedures, respectively.The utility of α-silylated o-toluamide for the synthesis of a tetralin (38, Scheme XI) via an o-quinodimethane species is given.
