60507-03-1Relevant articles and documents
Mechanistic Difference in Photoreduction of Phenacyl Halides by NADH Model Compounds
Fukuzumi, Shunichi,Mochizuki, Seiji,Tanaka, Toshio
, p. 1983 - 1986 (1988)
Photoreduction of phenacyl halides by an NADH model compound, 10-methylacridan (AcrH2), in MeCN proceeds via photoinduced electron transfer from the singlet excited state of AcrH2 to phenacyl halides without the conribution of radical chain reactions, while the photoreduction by another NADH model compound, 1-benzyl-1,4-dihydronicotinamide (BNAH), proceeds via photoinduced radical chain reactions.The origin of the mechanistic difference between AcrH2 and BNAH has been discussed.
Synthesis method of alpha or beta-substituted aromatic ketone
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Paragraph 0022-0027; 0086-0090, (2021/05/01)
The invention discloses a synthesis method of alpha-or beta-substituted aromatic ketone. The method comprises the following steps: under the condition of inert gas, reacting alpha-oxo-aryl ethanone compounds, B2pin2, PDI-CoCl2 and MBHEt3 in an organic solvent at room temperature, then adding a compound 2, and continuously reacting to obtain a compound 3, wherein in the MBHEt3, M is an alkali metal; the compound 2 is selected from the group consisting of deuterated methanol, Selectfluoro, a TogniII reagent or R2CHO; R2 is an aromatic substituent or alkyl; the organic solvent is an aprotic organic solvent. According to the method, the alpha-oxo aryl ethanone is used as a raw material, a cheap and stable boron reagent and an efficient cobalt catalyst which is cheap and easy to obtain are used, an activating reagent MBHEt3 is added to generate an enol boron ether intermediate, then the enol boron ether intermediate and different electrophilic reagents are synthesized into alpha-or beta-substituted aromatic ketone, the reaction is carried out at normal temperature, and the operation is convenient.
Water-Accelerated Nickel-Catalyzed α-Crotylation of Simple Ketones with 1,3-Butadiene under pH and Redox-Neutral Conditions
Chen, Tiantian,Dong, Guangbin,Xing, Dong,Yang, Haijian,Yang, Yang
, p. 4238 - 4243 (2020/05/05)
We report a nickel/NHC-catalyzed branched-selective α-crotylation of simple ketones using 1,3-butadiene as the alkylation agent. This reaction is regioselective and operated under pH and redox-neutral conditions. Water was used as the sole additive, which significantly accelerates the transformation.
Self-hydrogen transfer hydrogenolysis of β-O-4 linkages in lignin catalyzed by MIL-100(Fe) supported Pd-Ni BMNPs
Zhang, Jia-Wei,Lu, Guo-Ping,Cai, Chun
, p. 4538 - 4543 (2017/10/13)
A MIL-100(Fe) supported Pd-Ni BMNP catalyst has been fabricated, and the catalyst exhibits superior catalytic performance toward the intramolecular transfer hydrogenolysis of lignin model compounds and organosolv lignin. Alcoholic groups (CαH-OH) of lignin were exploited as the hydrogen source, and selective cleavage of β-O-4 linkages in lignin was realized without an extra hydrogen donor. This protocol was suitable for organosolv lignin as well as model compounds; several phenols and functionalized acetophenones were detected when extracted lignin was treated in our system. The catalyst exhibits outstanding catalytic stability during the reaction process, which can be ascribed to the porous structure and the strong water stability of MIL-100(Fe). The excellent catalytic performance of Pd1Ni4/MIL-100(Fe) highlights the "synergistic effect" between the BMNPs and the functional synergy between MNPs and MOFs, and our work shows the bright future of BMNPs and MOFs in the development of catalysts for sustainable chemistry.
