6266-49-5Relevant articles and documents
Structure Ligation Relationship of Amino Acids for the Amination Cross-Coupling Reactions
Vaidya, Gargi Nikhil,Khan, Arif,Verma, Hansa,Kumar, Sanjeev,Kumar, Dinesh
, p. 3004 - 3010 (2019/03/07)
The structure ligation relationship (SLR) of amino acids (AAs) for the cross-coupling aminations was examined. While AA ligated C-N cross-couplings under Pd and Ni catalysis were minor or ineffective, the AA ligated Cu-catalyzed C-N cross-couplings were promising particularly with the use of l-methionine. The roles of -NH2, -CO2H, and -S- of l-methionine were investigated and found critical for their ligation efficiency. The finding was compatible with aromatic as well as aliphatic amines including tautomerizable N-heteroarenes.
Preparation method of substituted 2, 3-phthalazinone compound
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Paragraph 0055; 0056, (2018/07/30)
The invention provides a preparation method of a substituted 2, 3-phthalazinone compound. The method includes the steps of: (1) adding substituted hydrazine and substituted o-carboxybenzaldehyde intoa reaction container, controlling the reaction temperature at 50DEG C-150DEG C, and carrying out thermal insulation reaction under mechanical mixing; and (2) carrying out TLC or gas phase monitoring reaction, at the end of the reaction, adding a precipitating agent into the reaction system, conducting stirring for 0.5-1.0h, and conducting standing and filtering to obtain a solid crystal, i.e. thesubstituted 2, 3-phthalazinone compound. Starting from cheap and easily available raw materials, the preparation method provided by the invention employs one-pot process for efficient preparation of aseries of highly bioactive substituted 2, 3-phthalazinone compounds with a yield of 90%-99% under a molten state. The method has the characteristics of wide substrate application range, no adding ofcatalyst, no use of solvent and mild conditions, the reaction time is shortened by 95% or more than that of the catalytic preparation method under the traditional solvent condition, and the product purity is very high.
Synthesis of tertiary arylamines: Lewis acid-catalyzed direct reductive: N -alkylation of secondary amines with ketones through an alternative pathway
Nayal, Onkar S.,Thakur, Maheshwar S.,Bhatt, Vinod,Kumar, Manoranjan,Kumar, Neeraj,Singh, Bikram,Sharma, Upendra
supporting information, p. 9648 - 9651 (2016/08/04)
We report herein a highly efficient, tin(ii)/PMHS catalyzed reductive N-alkylation of arylamines with ketones affording tertiary arylamines. A very wide substrate scope was observed for the current catalytic method as all six permutations of ketones/aldehydes/heterocyclic carbonyls and primary/secondary/heterocyclic amines were well tolerated, enabling access to secondary, tertiary and heterocyclic amines. The method is also convenient for the synthesis of N-substituted isoindolinones and phthalazinones via a tandem amination-amidation sequence. Mechanistic investigations revealed a carbocationic pathway instead of an ordinary direct reductive amination pathway.