4489-11-6Relevant academic research and scientific papers
Method for preparation of aromatic alcohol by photocatalysis of aromatic aldehyde conversion
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Paragraph 0073-0075, (2020/04/17)
The invention relates to a method for preparation of aromatic alcohol by photocatalysis of aromatic aldehyde conversion. By means of a photocatalyst, under the conditions of illumination and inert gas, fatty alcohol is adopted as a proton donor for reduction reaction on aromatic aldehyde to obtain corresponding aromatic alcohol. Fatty alcohol is used as the proton donor, and light energy is used as the energy source to promote high-conversion-rate and high-selectivity synthesis of a series of aromatic alcohol compounds from aromatic aldehyde, the method has universal applicability, and is expected to realize industrial production; and the reaction process is green and environment-friendly, low in cost, easy to operate, short in reaction period, high in conversion rate and good in selectivity.
Asymmetric Allylic C-H Alkylation via Palladium(II)/ cis-ArSOX Catalysis
Liu, Wei,Ali, Siraj Z.,Ammann, Stephen E.,White, M. Christina
supporting information, p. 10658 - 10662 (2018/09/06)
We report the development of Pd(II)/cis-aryl sulfoxide-oxazoline (cis-ArSOX) catalysts for asymmetric C-H alkylation of terminal olefins with a variety of synthetically versatile nucleophiles. The modular, tunable, and oxidatively stable ArSOX scaffold is key to the unprecedented broad scope and high enantioselectivity (37 examples, avg. > 90% ee). Pd(II)/cis-ArSOX is unique in its ability to effect high reactivity and catalyst-controlled diastereoselectivity on the alkylation of aliphatic olefins. We anticipate that this new chiral ligand class will find use in other transition metal catalyzed processes that operate under oxidative conditions.
Development of highly chemoselective bulky zincate complex, tBu 4ZnLi2: Design, structure, and practical applications in small-/macromolecular synthesis
Furayama, Taniyuki,Yonehara, Mitsuhiro,Arimoto, Sho,Kobayashi, Minoru,Matsumoto, Yotaro,Uchiyama, Masanobu
supporting information; experimental part, p. 10348 - 10356 (2009/10/10)
We present full details of the unique reactivities of the newly developed dianion-type bulky zincate, dilithium tetra-ferf-butylzincate (tBu 4ZnLi2). With this reagent, halogen-zinc exchange reaction of variously functionalized haloaromatics and anionic polymerization of N-isopropylacrylamide (NIPAm)/styrene with excellent chemoselectivity were realized. Halogen-zinc exchange reaction followed by electrophilic trapping with propargyl bromide provided a convenient route to functionalized phenylallenes, particularly those with electrophilic functional groups (such as cyano, amide and halogens). Spectral and computational studies of the structure in the gas and liquid phases indicated extraordinary stabilization of this dianion-type zincate by its bulky ligands.
Toward a protecting-group-free halogen-metal exchange reaction: Practical, chemoselective metalation of functionalized aromatic halides using dianion-type zincate,tBu4ZnLi2
Uchiyama, Masanobu,Furuyama, Taniyuki,Kobayashi, Minoru,Matsumoto, Yotaro,Tanaka, Kentaro
, p. 8404 - 8405 (2007/10/03)
A versatile preparation method for aromatic zincate compounds through a halogen-zinc exchange reaction using dilithium tetra-tert-butylzincate (tBu4ZnLi2) has been developed. This reagent permits efficient preparation of highly functionalized aromatic zincates, particularly, those with electrophilic functional groups, such as ester, amide, alcohol, and phenol. Halogen-zinc exchange reactions followed by electrophilic trapping (with allyl bromide or benzaldehyde) proved to be a powerful tool for C-C bond formation on functionalized aromatic rings. The functionalized aromatic zincate intermediate was also found to undergo copper- and palladium-catalyzed C-C bond-forming reactions with good yields and high chemoselectivity. Copyright
