845302-47-8Relevant academic research and scientific papers
Iridium-Catalyzed Enantioselective Hydrogenation of Oxocarbenium Ions: A Case of Ionic Hydrogenation
Lin, Zhenyang,Sun, Yongjie,Wang, Heng,Wen, Jialin,Yang, Tilong,Zhang, Xumu
supporting information, p. 6108 - 6114 (2020/03/04)
Ionic hydrogenation has not been extensively explored, but is advantageous for challenging substrates such as unsaturated intermediates. Reported here is an iridium-catalyzed hydrogenation of oxocarbenium ions to afford chiral isochromans with high enantioselectivities. A variety of functionalities are compatible with this catalytic system. In the presence of a catalytic amount of the Br?nsted acid HCl, an α-chloroether is generated in situ and subsequentially reduced. Kinetic studies suggest first-order kinetics in the substrate and half-order kinetics in the catalyst. A positive nonlinear effect, together with the half kinetic order, revealed a dimerization of the catalyst. Possible reaction pathways based on the monomeric iridium catalyst were proposed and DFT computational studies revealed an ionic hydrogenation pathway. Chloride abstraction and the cleavage of dihydrogen occur in the same step.
Catalytic Asymmetric [4 + 3] Annulation of C, N-Cyclic Azomethine Imines with Copper Allenylidenes
Wang, Yanfang,Zhu, Liping,Wang, Mengran,Xiong, Jiale,Chen, Nannan,Feng, Xing,Xu, Zhaoqing,Jiang, Xianxing
supporting information, p. 6506 - 6510 (2018/10/20)
The first asymmetric decarboxylative [4 + 3] annulation of propargylic carbamates with C,N-cyclic azomethine imines has been developed successfully by a copper-N-heterocyclic carbine system. This strategy led to a series of optically active isoquinoline-f
Phosphane-Catalyzed [3+3] Annulation of C,N-Cyclic Azomethine Imines with Ynones: A Practical Method for Tricyclic Dinitrogen-Fused Heterocycles
Li, Zhen,Yu, Hao,Liu, Yang,Zhou, Leijie,Sun, Zhanhu,Guo, Hongchao
supporting information, p. 1880 - 1885 (2016/07/06)
A phosphane-catalyzed [3+3] annulation of azomethine imines with ynones has been developed. Under mild reaction conditions, the reaction proceeds smoothly to afford tricyclic dinitrogen-fused heterocyclic compounds in moderate to excellent yields with moderate to excellent stereoselectivies. Using a chiral phosphine as the catalyst, the reaction could work to give the cycloadduct in moderate yield with moderate enantioselectivity. (Figure presented.) .
Iridium-catalyzed borylation of secondary benzylic C-H bonds directed by a hydrosilane
Cho, Seung Hwan,Hartwig, John F.
supporting information, p. 8157 - 8160 (2013/07/05)
Most functionalizations of C-H bonds by main-group reagents occur at aryl or methyl groups. We describe a highly regioselective borylation of secondary benzylic C-H bonds catalyzed by an iridium precursor and 3,4,7,8-tetramethyl-1, 10-phenanthroline as the ligand. The reaction is directed to the benzylic position by a hydrosilyl substituent. This hydrosilyl directing group is readily deprotected or transformed to other functional groups after the borylation reaction, providing access to a diverse set of secondary benzylboronate esters by C-H borylation chemistry.
CuBr2 catalyzed bromination/oxidation of isochromans to benzaldehyde derivatives
Zhou, Mei-Yan,Kong, Shan-Shan,Zhang, Ling-Qiong,Zhao, Ming,Duan, Jin-Ao,Ou-Yang, Zhen,Wang, Min
supporting information, p. 3962 - 3964 (2013/07/25)
A series of isochromans were oxidized and brominated by using 1.2 equiv of CuBr2 in CH3CN at reflux to give the corresponding bromo benzaldehydes in moderate yields. A plausible mechanism for this transformation has been suggested.
Rhodium-catalyzed synthesis of eight-membered rings
DeBoef, Brenton,Counts, W. Richard,Gilbertson, Scott R.
, p. 799 - 804 (2007/10/03)
(Chemical Equation Presented) Experiments to develop a rhodium catalyst for the [4 + 2 + 2] cycloisomerization of dienynes with a second alkyne are described. The generality of the reaction is probed in terms of dienyne structure and alkyne structure. A catalyst system that provides cyclooctatrienes in greater than 70% yield is reported. Several experiments to determine the nature of the catalyst are described.
Discovery of a new boron-containing antifungal agent, 5-fluoro-1,3-dihydro- 1-hydroxy-2,1-benzoxaborole (AN2690), for the potential treatment of onychomycosis
Baker, Stephen J.,Zhang, Yong-Kang,Akama, Tsutomu,Lau, Agnes,Zhou, Huchen,Hernandez, Vincent,Mao, Weimin,Alley,Sanders, Virginia,Plattner, Jacob J.
, p. 4447 - 4450 (2007/10/03)
A structure-activity relationship investigation for a more efficacious therapy to treat onychomycosis, a fungal infection of the toe and fingernails, led to the discovery of a boron-containing small molecule, 5-fluoro-1,3-dihydro- 1-hydroxy-2,1-benzoxaborole (AN2690), which is currently in clinical trials for onychomycosis topical treatment.
