53342-46-4Relevant articles and documents
Lewis Acid-Catalyzed Halonium Generation for Morpholine Synthesis and Claisen Rearrangement
Ariyarathna, Jeewani P.,Alom, Nur-E,Roberts, Leo P.,Kaur, Navdeep,Wu, Fan,Li, Wei
, p. 2947 - 2958 (2022/02/23)
We disclose here practical strategies toward the synthesis of morpholines and Claisen rearrangement products based on the divergent reactivity of a common halonium intermediate. These reactions employ widely available alkenes in a Lewis acid-catalyzed halo-etherification process that can then transform them into the desired products with exceptional regioselectivity for both activated and unactivated olefins. Our mechanistic probe reveals an interesting regiochemical kinetic resolution process.
Nickel-catalyzed remote hydrosilylation of unconjugated enones with bulky triphenylsilane
Chen, Xue,Jin, Hongwei,Liu, Yunkui,Wang, Zhen,Zhou, Bingwei,Zhou, Jinyong
, p. 8021 - 8024 (2021/10/04)
Herein we describe a nickel-catalyzed remote hydrosilylation of unconjugated enones with bulky triphenylsilane. A range ofZ-silyl enol ethers are obtained as major isomers due to the process of nickel triggered alkene isomerization. Notably, some specific
Visible-Light Photoredox-Catalyzed α-Allylation of α-Bromocarbonyl Compounds Using Allyltrimethylsilane
Gontala, Arjun,Jang, Gwang Seok,Woo, Sang Kook
supporting information, p. 506 - 509 (2021/01/20)
The development of a greener allylation reagent for α-allylation of carbonyl compounds is of great necessity. Here we present allyltrimethylsilane as a novel allylation reagent in the photoredox-catalyzed α-allylation of carbonyl compounds such as ketones, esters, and amides. The reaction process shows good functional group tolerance and generates a good yield of the product. The reaction mechanism is a radical-mediated reaction by photo-induced single electron transfer.
Iron-catalyzed acylation-functionalization of unactivated alkenes with aldehydes
Tian, Tian,Wang, Xin,Lv, Leiyang,Li, Zhiping
supporting information, p. 14637 - 14640 (2020/12/02)
Herein, an iron-catalyzed acylation-functionalization of unactivated alkenes with aldehydes via distal group ipso-migration is reported. This strategy overcame the energy barrier and reversibility in the difunctionalization of unactivated alkenes with nuc
An α-Cyclopropanation of Carbonyl Derivatives by Oxidative Umpolung
Bauer, Adriano,Di Mauro, Giovanni,Li, Jing,Maulide, Nuno
, p. 18208 - 18212 (2020/08/21)
The reactivity of iodine(III) reagents towards nucleophiles is often associated with umpolung and cationic mechanisms. Herein, we report a general process converting a range of ketone derivatives into α-cyclopropanated ketones by oxidative umpolung. Mechanistic investigation and careful characterization of side products revealed that the reaction follows an unexpected pathway and suggests the intermediacy of non-classical carbocations.
Saturated Bioisosteres of ortho-Substituted Benzenes
Denisenko, Aleksandr,Garbuz, Pavel,Mykhailiuk, Pavel K.,Shishkina, Svetlana V.,Voloshchuk, Nataliya M.
, p. 20515 - 20521 (2020/08/21)
Saturated bioisosteres of ortho-disubstituted benzenes (bicyclo[2.1.1]hexanes) were synthesized, characterized and validated. These cores were incorporated into the bioactive compounds Valsartan, Boskalid and Fluxapyroxad instead of the benzene ring. The
Palladium-Catalyzed Hydrocarbonylative Cyclization of 1,5-Dienes
Zou, Suchen,Gao, Bao,Huang, Yao,Zhang, Tianze,Huang, Hanmin
supporting information, p. 6333 - 6336 (2019/08/26)
A novel and atom-economic palladium-catalyzed isomerization-hydrocarbonylative cyclization reaction of 1,5-dienes to 2-alkylidenecyclopentanones has been developed, which provides a rapid and straightforward approach to 2-alkylidenecyclopentanones with high stereoselectivity. The reaction was found to proceed via alkene isomerization and selective hydrocarbonylative cyclization to generate 2-alkylidenecyclopentanones with high selectivity.
Oximinotrifluoromethylation of unactivated alkenes under ambient conditions
Wang, Na,Wang, Jian,Guo, Yu-Long,Li, Lei,Sun, Yan,Li, Zhuang,Zhang, Hong-Xia,Guo, Zhen,Li, Zhong-Liang,Liu, Xin-Yuan
supporting information, p. 8885 - 8888 (2018/08/17)
An efficient protocol for oximinotrifluoromethylation of unactivated alkenes was developed via trifluoromethyl radical-induced intramolecular remote oximino migration under mild reaction conditions, providing a wide range of β-trifluoromethylated oximes. Other fluoroalkyl radicals were also applicable for this transformation. This method provided access to synthetically challenging medium-sized ring scaffolds and the 6,7,5-fused lactam skeleton.
Visible-Light-Mediated Iminyl Radical Generation from Benzyl Oxime Ether: Synthesis of Pyrroline via Hydroimination Cyclization
Usami, Kaoru,Yamaguchi, Eiji,Tada, Norihiro,Itoh, Akichika
supporting information, p. 5714 - 5717 (2018/09/21)
The treatment of an O-(4-methoxybenzyl) oxime ether bearing an olefin substituent and 1-chloroanthraquinone (1-Cl-AQN) catalyst in 2-butanone under visible-light irradiation affords pyrroline via an iminyl radical intramolecular hydroimination. Mechanistic studies indicate that iminyl radical generation mainly proceeds by hydrogen abstraction of the photocatalyst from the benzyl position of the oxime. Moreover, the hydrogen atom was identified in circulation from the benzylic position of the substrates between AQN and 2-butanone to quench the carbon radical without requiring any additional reagents.
Visible-Light-Mediated Generation of Nitrogen-Centered Radicals: Metal-Free Hydroimination and Iminohydroxylation Cyclization Reactions
Davies, Jacob,Booth, Samuel G.,Essafi, Stephanie,Dryfe, Robert A. W.,Leonori, Daniele
supporting information, p. 14017 - 14021 (2016/01/25)
The formation and use of iminyl radicals in novel and divergent hydroimination and iminohydroxylation cyclization reactions has been accomplished through the design of a new class of reactive O-aryl oximes. Owing to their low reduction potentials, the inexpensive organic dye eosin Y could be used as the photocatalyst of the organocatalytic hydroimination reaction. Furthermore, reaction conditions for a unique iminohydroxylation were identified; visible-light-mediated electron transfer from novel electron donor-acceptor complexes of the oximes and Et3N was proposed as a key step of this process.
