16600-51-4Relevant articles and documents
Iridium-catalyzed synthesis of quinolines from 2-aminobenzyl alcohols with secondary alcohols
Yu,Yao,Hu,Wang
, p. 376 - 379 (2016)
The quinoline derivatives were synthesized from 2-aminobenzyl alcohols and secondary alcohols by the direct one-step synthesis using the iridium complexes as catalyst. This efficient and easy method is suitable for all kinds of substituted quinolines.
Low-valent titanium reagent-promoted intramolecular reductive coupling reactions of ketomalononitriles: A facile synthesis of benzo[4,5]indene, acridine and quinoline derivatives
Shi, Daqing,Rong, Liangce,Shi, Chunling,Zhuang, Qiya,Wang, Xiangshan,Tu, Shujiang,Hu, Hongwen
, p. 717 - 724 (2005)
The intramolecular reductive coupling reactions of ketomalononitriles induced by a low-valent titanium reagent were studied. Benzo[4,5]indene, acridine and quinoline derivatives are prepared in good yields under neutral and mild conditions.
Nickel-catalyzed α-alkylation of ketones with benzyl alcohols
Wu, Di,Wang, Yubin,Li, Min,Shi, Lei,Liu, Jichang,Liu, Ning
, (2021/11/04)
We reported an efficient method for α-alkylation of ketones with benzyl alcohols using the pyridine-bridged pincer-type N-heterocyclic carbenes nickel complexes as catalysts. A wide range of ketones and benzyl alcohols were efficiently converted into various alkylated products in moderate to high yields. In addition, these nickel complexes were also successfully applied for the synthesis of a wide range of quinoline derivatives.
Copper-catalyzed formal [3 + 3] annulations of arylketoximes and o-fluorobenzaldehydes: An entry to quinoline compounds
Xu, Zhenhua,Chen, Hongbiao,Deng, Guo-Jun,Huang, Huawen
supporting information, p. 936 - 942 (2021/02/01)
A copper-based catalytic system has been developed to enable efficient cyclization of ketoxime acetates with ofluorobenzaldehydes. This protocol offers an efficient method for the synthesis of substituted quinoline derivatives with a broad range of compatible functionalities. The present system also provides a rapid access to synthetically and pharmaceutically useful quinoline-fused polycycles such as benzo[c]acridines.
Direct synthesis of ring-fused quinolines and pyridines catalyzed byNNHY-ligated manganese complexes (Y = NR2or SR)
Han, Mingyang,Lin, Qing,Liu, Qingbin,Liu, Song,Ma, Ning,Solan, Gregory A.,Sun, Wen-Hua,Wang, Zheng,Yan, Xiuli
, p. 8026 - 8036 (2021/12/27)
Four cationic manganese(i) complexes, [(fac-NNHN)Mn(CO)3]Br (Mn-1-Mn-3) and [(fac-NNHS)Mn(CO)3]Br (Mn-4) (whereNNHis a 5,6,7,8-tetrahydro-8-quinolinamine moiety), have been synthesized and evaluated as catalysts for the direct synthesis of quinolines and pyridines by the reaction of a γ-amino alcohol with a ketone or secondary alcohol;NNHS-ligatedMn-4proved the most effective of the four catalysts. The reactions proceeded well in the presence of catalyst loadings in the range 0.5-5.0 mol% and tolerated diverse functional groups such as alkyl, cycloalkyl, alkoxy, chloride and hetero-aryl. A mechanism involving acceptorless dehydrogenation coupling (ADC) has been proposed on the basis of DFT calculations and experimental evidence. Significantly, this manganese-based catalytic protocol provides a promising green and environmentally friendly route to a wide range of synthetically important substituted monocyclic, bicyclic as well as tricyclicN-heterocycles (including 50 quinoline and 26 pyridine examples) with isolated yields of up to 93%.