123077-46-3Relevant academic research and scientific papers
A direct facile and effective synthesis of various 1,1-heterodiaryl alkenes through Pd catalyzed cross coupling reaction using N-tosylhydrazones via C-OH bond activation
Patel, Poojan K.,Dalvadi, Jignesh P.,Chikhalia, Kishor H.
, p. 6585 - 6589 (2015)
At this event for the first time, the direct arylation with the generation of a facile and effective process for the synthesis of alkenes has been established through in situ C-OH activation afterward Pd catalyzed C-C bond formation of heteroarenols with
Pd-Catalyzed Coupling of Thioamides with N-Tosylhydrazones/Trapping by Esters Cascade Reaction
Cai, Zhongliang,Yao, Zhi,Jiang, Liqin
supporting information, p. 311 - 316 (2021/01/26)
N,N-Disubstituted thioamides coupled with N-tosylhydrazones under Pd(TFA)2/tBuXPhos catalyst and NaOtBu, and the intermediates from palladium carbene migratory insertion containing β-hydrogen were trapped by intramolecular esters activated by BF3·Et2O ins
Copper(i)-catalyzed benzylation of triazolopyridine through direct C-H functionalization
Reddy Lonka, Madhava,Zhang, Jinquan,Gogula, Thirupathi,Zou, Hongbin
, p. 7455 - 7460 (2019/08/20)
A general and efficient copper-catalyzed benzylation reaction of triazolopyridine with N-tosylhydrazones was developed. This reaction forms a C(sp2)-C(sp3) bond through cross-coupling, and represents an exceedingly practical method t
Asymmetric Copper-Catalyzed C(sp)-H Bond Insertion of Carbenoids Derived from N-Tosylhydrazones
Osako, Takao,Nagaosa, Makoto,Hamasaka, Go,Uozumi, Yasuhiro
supporting information, p. 2251 - 2256 (2018/10/20)
A chiral copper(I)-phosphoramidite complex efficiently catalyzed the asymmetric insertion of the carbenoids derived from N-tosyl hydrazones into alkyne C-H bonds to give the corresponding chiral alkynylated products in up to 77% yield and with up to 74% e
Rhodium-Catalyzed B-H Bond Insertion Reactions of Unstabilized Diazo Compounds Generated in Situ from Tosylhydrazones
Pang, Yue,He, Qiao,Li, Zi-Qi,Yang, Ji-Min,Yu, Jin-Han,Zhu, Shou-Fei,Zhou, Qi-Lin
supporting information, p. 10663 - 10668 (2018/09/06)
Although transition-metal-catalyzed B-H bond insertion of carbenes into stable borane adducts has emerged as a promising method for organoborane synthesis, all the diazo compounds used to date as carbene precursors have had an electron-withdrawing group to stabilize them. Herein, we report a protocol for rhodium-catalyzed B-H bond insertion reactions of unstabilized diazo compounds generated in situ from tosylhydrazones. In addition, by using chiral dirhodium catalysts, we also achieved an asymmetric version of the reaction with good to excellent enantioselectivities (up to 98:2 e.r.). This is the first enantioselective heteroatom-hydrogen bond insertion reaction to use unstabilized diazo compounds as carbene precursors. The protocol exhibited good functional group tolerance and could be carried out on a gram scale. It also enabled one-pot transformation of a carbonyl group to a boryl group enantioselectively. The B-H bond insertion products could be easily transformed into chiral alcohols and other widely used organoboron reagents with enantiomeric fidelity.
Directed C-C bond cleavage of a cyclopropane intermediate generated from: N -tosylhydrazones and stable enaminones: Expedient synthesis of functionalized 1,4-ketoaldehydes
Ni, Meiyan,Zhang, Jianguo,Liang, Xiaoyu,Jiang, Yaojia,Loh, Teck-Peng
supporting information, p. 12286 - 12289 (2017/11/20)
An efficient method to construct functionalized 1,4-ketoaldehydes bearing all-carbon α-quaternary centers via regioselective C-C bond activation has been described. The cyclopropanation of bench-stable enaminones with in situ generated diazo reagents from
Copper-Mediated [3 + 2] Oxidative Cyclization Reaction of N-Tosylhydrazones and β-Ketoesters: Synthesis of 2,3,5-Trisubstituted Furans
Huang, Yubing,Li, Xianwei,Yu, Yue,Zhu, Chuanle,Wu, Wanqing,Jiang, Huanfeng
, p. 5014 - 5020 (2016/07/06)
The first attempt at utilizing N-tosylhydrazones as two-carbon synthons has been successfully achieved, which underwent a copper-mediated [3 + 2] oxidative cyclization reaction to afford 2,3,5-trisubstituted furans in moderate to good yields. The features of this method include inexpensive metal catalyst, readily available substrates, high regioselectivity, and convenient operation. The studies provide important approaches for further exploration of the powerful and diverse reaction abilities of N-tosylhydrazones.
Copper-catalyzed direct ortho-alkylation of N-iminopyridinium ylides with N-tosylhydrazones
Xiao, Qing,Ling, Lin,Ye, Fei,Tan, Renchang,Tian, Leiming,Zhang, Yan,Li, Yuxue,Wang, Jianbo
supporting information, p. 3879 - 3885 (2013/05/22)
Copper-catalyzed cross-coupling of N-tosylhydrazones with N-iminopyridinium ylides leads to the direct C-H alkylation. This direct C-H bond alkylation transformation uses inexpensive CuI as the catalyst without any ligand. The reaction is operationally simple and conducted under mild conditions, giving the corresponding alkylated pyridines in moderate to good yields. DFT calculation provides insights into the reaction mechanism, suggesting that the reaction proceeds through the Cu carbene migratory insertion process.
Palladium-catalyzed oxidative cross-coupling of N-tosylhydrazones with indoles: Synthesis of N-vinylindoles
Zeng, Xiaobao,Cheng, Guolin,Shen, Jinhai,Cui, Xiuling
supporting information, p. 3022 - 3025 (2013/07/26)
A general and efficient palladium-catalyzed oxidative cross-coupling reaction of N-tosylhydrazones with indoles providing N-vinylindoles has been developed. The reaction proceeds smoothly with various indoles and N-tosylhydrazones in a stereocontrolled ma
Copper-catalyzed direct benzylation or allylation of 1,3-azoles with N -tosylhydrazones
Zhao, Xia,Wu, Guojiao,Zhang, Yan,Wang, Jianbo
supporting information; experimental part, p. 3296 - 3299 (2011/04/24)
Cu-Catalyzed cross-coupling of N-tosylhydrazones with 1,3-azoles leads to the direct C-H benzylation or allylation. Cu carbene migratory insertion is proposed to play the key role in this transformation.
