150646-20-1Relevant academic research and scientific papers
Carbonylative C?C Bond Activation of Electron-Poor Cyclopropanes: Rhodium-Catalyzed (3+1+2) Cycloadditions of Cyclopropylamides
Dalling, Andrew G.,Yamauchi, Takayuki,McCreanor, Niall G.,Cox, Lydia,Bower, John F.
supporting information, p. 221 - 225 (2018/12/11)
Rh-catalyzed carbonylative C?C bond activation of cyclopropylamides generates configurationally stable rhodacyclopentanones that engage tethered alkenes in (3+1+2) cycloadditions. These studies provide the first examples of multicomponent cycloadditions t
Photocatalytic and Chemoselective Transfer Hydrogenation of Diarylimines in Batch and Continuous Flow
Van As, Dean J.,Connell, Timothy U.,Brzozowski, Martin,Scully, Andrew D.,Polyzos, Anastasios
, p. 905 - 908 (2018/02/22)
A visible-light photocalytic method for the chemoselective transfer hydrogenation of imines in batch and continuous flow is described. The reaction utilizes Et3N as both hydrogen source and single-electron donor, enabling the selective reduction of imines derived from diarylketimines containing other reducible functional groups including nitriles, halides, esters, and ketones. The dual role of Et3N was confirmed by fluorescence quenching measurements, transient absorption spectroscopy, and deuterium-labeling studies. Continuous-flow processing facilitates straightforward scale-up of the reaction.
Visible-Light-Mediated Umpolung Reactivity of Imines: Ketimine Reductions with Cy2NMe and Water
Wang, Rui,Ma, Mengyue,Gong, Xu,Panetti, Grace B.,Fan, Xinyuan,Walsh, Patrick J.
, p. 2433 - 2436 (2018/04/27)
A novel carbanionic reactivity of imines mediated by photoredox catalysis is demonstrated. The umpolung imine reactivity is exemplified by proton abstraction from water as a key step in the reduction of benzophenone ketimines to amines (up to 98% yield). Deuterium is introduced into amines efficiently using D2O as an inexpensive deuterium source (≥95% D ratio). The mechanism of this unusual transformation is probed.
Correction to: Photocatalytic and Chemoselective Transfer Hydrogenation of Diarylimines in Batch and Continuous Flow (Organic Letters (2018) 20:4 (905-908) DOI: 10.1021/acs.orglett.7b03565)
Van As, Dean J.,Connell, Timothy U.,Brzozowski, Martin,Scully, Andrew D.,Polyzos, Anastasios
, p. 4392 - 4392 (2018/07/29)
Sections of Schemes 2 and 4 were omitted in error during the production process. The complete versions of Schemes 2 and 4 are shown below.(Figure Persented).Scheme 2 is corrected as follows:.
Direct use of allylic alcohols and allylic amines in palladium-catalyzed allylic amination
Jing, Jiangyan,Huo, Xiaohong,Shen, Jiefeng,Fu, Jingke,Meng, Qinghua,Zhang, Wanbin
supporting information, p. 5151 - 5154 (2017/07/12)
Allylic alcohols and allylic amines were directly utilized in a Pd-catalyzed hydrogen-bond-activated allylic amination under mild reaction conditions in the absence of any additives. The cooperative action of a Pd-catalyst and a hydrogen-bonding solvent is most likely responsible for its high reactivity. The catalytic system is compatible with a variety of functional groups and can be used to prepare a wide range of linear allylic amines in good to excellent yields. Furthermore, this methodology can be easily applied to the one-step synthesis of two drugs, cinnarizine and naftifine, on a gram scale.
N-allylideneamines derived from acrolein: synthesis and use as acceptors of two nucleophiles
Mizota, Isao,Matsuda, Yuri,Hachiya, Iwao,Shimizu, Makoto
scheme or table, p. 4073 - 4084 (2009/12/26)
Two practical methods have been developed for the preparation of N-allylideneamines 1b,c. One involves the isomerlzation of propargylamines and the other the dehydration of acrolein. N-Allylideneamines 1b,c thus prepared, were used as efficient substrates
Chiral counteranions in asymmetric transition-metal catalysis: Highly enantioselective Pd/Bronsted acid-catalyzed direct α-allylation of aldehydes
Mukherjee, Santanu,List, Benjamin
, p. 11336 - 11337 (2008/03/17)
We have developed a highly enantioselective Pd/chiral acid-catalyzed α-allylation of α-branched aldehydes with an allyl amine as the allylating species that creates all-carbon quaternary stereogenic centers in high yields and enantioselectivities. To our knowledge, this is the first time that a chiral anionic ligand is applied for achieving asymmetric induction in a palladium-catalyzed allylic alkylation reaction. Copyright
Synthesis of secondary amines by titanium-mediated transfer of alkenyl groups from alcohols
Ramanathan, Balasubramanian,Odom, Aaron L.
, p. 9344 - 9345 (2007/10/03)
Reaction of Ti(NMe2)4 with allyl alcohols and primary amines leads to the selective formation of secondary allylic amines. The allyl transfer from the alcohol to the amine occurs with selective allylic transposition. Due to substituent effects in the reactions, we postulate that the reaction occurs through a [2 + 2]/retro-[2 + 2]-cycloaddition mechanism. It was also found that a similar reaction could be accomplished with homoallylic alcohol. In this case, the more complex mechanism leads to the formation of 1-aza-spiro[5.5]undecane. Possible pathways for the homoallylic transfer and cyclization are discussed. Copyright
Synthesis of [11C]/(13C)amines via carbonylation followed by reductive animation
Rahman, Obaidur,Kihlberg, Tor,Langstroem, Bengt
, p. 1612 - 1616 (2007/10/03)
Twelve 11C-labelled amines were prepared via 11C-carbonylation followed by reductive amination. The 11C-carbonylation was performed in the presence of tetrakis(triphenylphosphine)palladium using aryl iodides or aryl trifla
Selective deprotection of allyl amines using palladium
Lemaire-Audoire,Lemaire-Audoire, Sandrine,Savignac,Savignac, Monique,Genet,Genet, Jean Pierre,Bernard,Bernard, Jean-Marie
, p. 1267 - 1270 (2007/10/02)
Mono and diallylamines can be cleaved using Pdf(0) catalyst and 2-mercaptobenzoic acid as nucleophile. This methodology has been successfully used for the sequential deprotection of diallylamines. The yields of desallylation are good to quantitative.
