140632-19-5Relevant articles and documents
Efficient diastereoselective synthesis of cis-2-amino-1-indanol derivatives and cis- and trans-1-amino-2-indanol via Pd-catalyzed hydrogenation
Nguyen, Thi Ha,Ma, Eunsook
supporting information, p. 3717 - 3728 (2021/11/01)
(±)-cis-2-amino-1-indanol was diastereoselectively synthesized from 1,2-indanedion-2-oxime in ethanol at 25 °C under 10% Pd/C-catalyzed hydrogenation conditions. Under the same hydrogenation condition, 1,2-indanedion-2-oxime and their derivatives having one and/or two electron-donating groups in aliphatic or aromatic part of indanyl ring were diastereoselectively reduced to racemic cis-2-amino-1-indanol derivatives. From 1,2-indanedion-1-oxime, (±)-trans-1-amino-2-indanol was obtained in ethanol at 25 °C over a 10% Pd/BaSO4 catalyst. In contrast, the 10% Pd/BaSO4-catalyzed hydrogenation reaction in ethanol at 45 °C afforded cis-1-hydroxyamino-2-indanol from 1,2-indanedion-1-oxime, followed by reduction to form (±)-cis-1-amino-2-indanol. The diastereoselectivity of β-aminoindanols was dependent on the Pd catalyst, reaction temperature, and pH of the reaction medium.
Catalytic enantioselective synthesis of β-amino alcohols by nitrene insertion
Zhou, Zijun,Tan, Yuqi,Shen, Xiang,Ivlev, Sergei,Meggers, Eric
, p. 452 - 458 (2020/12/31)
Chiral β-amino alcohols are important building blocks for the synthesis of drugs, natural products, chiral auxiliaries, chiral ligands and chiral organocatalysts. The catalytic asymmetric β-amination of alcohols offers a direct strategy to access this class of molecules. Herein, we report a general intramolecular C(sp3)-H nitrene insertion method for the synthesis of chiral oxazolidin-2-ones as precursors of chiral β-amino alcohols. Specifically, the ring-closing C(sp3)-H amination of N-benzoyloxycarbamates with 2 mol% of a chiral ruthenium catalyst provides cyclic carbamates in up to 99% yield and with up to 99% ee. The method is applicable to benzylic, allylic, and propargylic C-H bonds and can even be applied to completely non-activated C (sp3)-H bonds, although with somewhat reduced yields and stereoselectivities. The obtained cyclic carbamates can subsequently be hydrolyzed to obtain chiral β-amino alcohols. The method is very practical as the catalyst can be easily synthesized on a gram scale and can be recycled after the reaction for further use. The synthetic value of the new method is demonstrated with the asymmetric synthesis of a chiral oxazolidin-2-one as intermediate for the synthesis of the natural product aurantioclavine and chiral β-amino alcohols that are intermediates for the synthesis of chiral amino acids, indane-derived chiral Box-ligands, and the natural products dihydrohamacanthin A and dragmacidin A.[Figure not available: see fulltext.].
Catalytic β C-H amination: Via an imidate radical relay
Stateman, Leah M.,Wappes, Ethan A.,Nakafuku, Kohki M.,Edwards, Kara M.,Nagib, David A.
, p. 2693 - 2699 (2019/03/06)
The first catalytic strategy to harness imidate radicals for C-H functionalization has been developed. This iodine-catalyzed approach enables β C-H amination of alcohols by an imidate-mediated radical relay. In contrast to our first-generation, (super)stoichiometric protocol, this catalytic method enables faster and more efficient reactivity. Furthermore, lower oxidant concentration affords broader functional group tolerance, including alkenes, alkynes, alcohols, carbonyls, and heteroarenes. Mechanistic experiments interrogating the electronic nature of the key 1,5 H-atom transfer event are included, as well as probes for chemo-, regio-, and stereo-selectivity.