1310708-95-2Relevant academic research and scientific papers
Direct Hiyama Cross-Coupling of (Hetero)arylsilanes with C(sp2)-H Bonds Enabled by Cobalt Catalysis
Lu, Ming-Zhu,Ding, Xin,Shao, Changdong,Hu, Zhengsong,Luo, Haiqing,Zhi, Sanjun,Hu, Huayou,Kan, Yuhe,Loh, Teck-Peng
supporting information, p. 2663 - 2668 (2020/03/30)
We report a chelation-assisted C-H arylation of various indoles with sterically and electronically diverse (hetero)arylsilanes enabled by cost-effective Cp*-free cobalt catalysis. Key to the success of this strategy is the judicious choice of copper(II) fluoride as a bifunctional sliane activator and catalyst reoxidant. This methodology features a broad substrate scope and good functional group compatibility. The synthetic versatility of this protocol has been highlighted by the gram-scale synthesis and late-stage diversification of biologically active molecules.
Ruthenium(II)-Catalyzed Direct C-H Arylation of Indoles with Arylsilanes in Water
Nareddy, Pradeep,Jordan, Frank,Szostak, Michal
supporting information, p. 341 - 344 (2018/01/27)
The ruthenium(II)-catalyzed, heteroatom-directed C-H arylation of indoles with arylsilanes in water has been developed. The method represents the first example of a ruthenium(II)-catalyzed oxidative C-H arylation in water/aqueous media as a sustainable solvent for C-H functionalization. The reaction enables the synthesis of a wide range of indoles with exquisite selectivity for arylation at the C-2 position. Preliminary mechanistic studies indicate reversibility of the C-H ruthenation step under the developed reaction conditions.
Rhodium-catalyzed C-H functionalization with N-acylsaccharins
Wu, Hongxiang,Liu, Tingting,Cui, Ming,Li, Yue,Jian, Junsheng,Wang, Hui,Zeng, Zhuo
supporting information, p. 536 - 540 (2017/01/25)
A rhodium-catalyzed C-H functionalization with activated amides by decarbonylation has been developed. Notably, this is the first C-H arylation employing N-acylsaccharins as coupling partners to give biaryls in good to excellent yields. The highlight of the work is the high tolerance of functional groups such as formyl, ester, and vinyl and the use of a removable directing group.
Cobalt(II)-Catalyzed Oxidative C-H Arylation of Indoles and Boronic Acids
Zhu, Xinju,Su, Jian-Hang,Du, Cong,Wang, Zheng-Long,Ren, Chang-Jiu,Niu, Jun-Long,Song, Mao-Ping
supporting information, p. 596 - 599 (2017/02/10)
Co(II)-catalyzed C-H C2 selective arylation of indoles with boronic acids through monodentate chelation assistance has been achieved for the first time. The unique features of this methodology include mild reaction conditions, highly C2 regioselectivity, and employment of a Grignard reagent-free catalytic system. A wide range of substrates, including unreactive arenes, are well tolerated, which enables the construction of the coupling products efficiently. This new strategy provides an alternative and versatile approach to construct biaryls using inexpensive cobalt catalyst.
Rhodium-catalyzed regioselective direct C-H arylation of indoles with aryl boronic acids
Wang, Liang,Qu, Xing,Li, Zhan,Peng, Wang-Ming
supporting information, p. 3754 - 3757 (2015/06/08)
A highly efficient Rh(III)-catalyzed direct C-H arylation of indoles with aryl boronic acids under mild conditions has been developed. The methodology features wide substrate scope and excellent functional group compatibility (34 examples, up to 99% yield). The arylated products can also be conveniently transformed into biologically active polycyclic indole derivatives.
Ru-catalysed C-H arylation of indoles and pyrroles with boronic acids: Scope and mechanistic studies
Sollert, Carina,Devaraj, Karthik,Orthaber, Andreas,Gates, Paul J.,Pilarski, Lukasz T.
supporting information, p. 5380 - 5386 (2015/03/30)
The Ru-catalysed C2-H arylation of indoles and pyrroles by using boronic acids under oxidative conditions is reported. This reaction can be applied to tryptophan derivatives and tolerates a wide range of functional groups on both coupling partners, including bromides and iodides, which can be further derivatised selectively. New indole-based ruthenacyclic complexes are described and investigated as possible intermediates in the reaction. Mechanistic studies suggest the on-cycle intermediates do not possess a para-cymene ligand and that the on-cycle metalation occurs through an electrophilic attack by the Ru centre. High tolerance: An oxidative, Ru-catalysed, and highly selective C-H arylation of indoles and pyrroles is accomplished by using boronic acids (see picture; pym=2-pyrimidyl). The reaction tolerates a wide range of functional groups, including aryl iodides and tryptophan derivatives. New indole-based ruthenacycles are described and their role in the mechanism is investigated.
Rhodium-catalyzed decarbonylative direct C2-arylation of indoles with aryl carboxylic acids
Zhang, Lingjuan,Xue, Xiao,Xu, Conghui,Pan, Yixiao,Zhang, Guang,Xu, Lijin,Li, Huanrong,Shi, Zhangjie
, p. 3069 - 3074 (2015/02/02)
A RhI-catalyzed direct C2-arylation of indoles with diversely substituted aryl carboxylic acids has been developed using 2-pyrimidyl group as an easily installable and readily removable N-directing group. The reaction proceeded smoothly without the need for any external oxidants under relatively mild conditions to produce the C2-arylated indoles in high yields with excellent regioselectivity. A range of functional groups in both coupling partners were tolerated regardless of their electronic properties and positions. With the assistance of the 2-pyrimidyl group, these C2-functionalized products could further undergo C7-arylation to give the C7-aryl indole products. Mechanistic evidence supports that the reaction involves a decarbonylation step, and the carboxylic acids could be activated in situ by treatment with (tBuCO)2O to generate the active anhydrides.
Mild Rh(III)-catalyzed direct C-H bond arylation of (hetero)arenes with arylsilanes in aqueous media
Lu, Ming-Zhu,Lu, Ping,Xu, Yun-He,Loh, Teck-Peng
supporting information, p. 2614 - 2617 (2014/06/09)
An efficient rhodium(III)-catalyzed C-H bond activation and further direct arylation of (hetero)arenes with organosilanes in aqueous media was developed. This reaction shows good substrate scope and excellent functional group compatibility and gives the products in good yields with excellent regioselectivity.
Ruthenium-catalyzed direct C-H bond arylations of heteroarenes
Ackermann, Lutz,Lygin, Alexander V.
supporting information; experimental part, p. 3332 - 3335 (2011/09/12)
Ruthenium-catalyzed C-H bond arylations of indoles, thiophenes, and pyrroles were accomplished in a highly chemo- and site-selective manner through the use of removable directing groups.
