51413-71-9Relevant articles and documents
Method for preparing quinazolone and derivatives thereof by using chitosan-loaded copper catalyst
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Paragraph 0081-0087, (2021/05/12)
The invention discloses a method for preparing quinazolone and derivatives thereof by using a chitosan-loaded copper catalyst, which comprises the following steps of replacing residual gas in a reaction container with inert gas, adding a catalytic amount of copper ion-loaded chitosan catalyst, substituted 2-halogenated benzoic acid, substituted amidine hydrochloride, inorganic alkali and a mixed solvent into the reaction container, and heating for reaction, after the reaction time is 2-18 hours, extracting the product by using ethyl acetate, filtering and recovering the copper ion-loaded chitosan catalyst, concentrating the filtrate under reduced pressure, and purifying the product by column chromatography. The method has the advantages of low catalyst dosage, recoverability, easy separation after reaction, no metal residue, simple post-treatment, and suitableness for large-scale production.
NOVEL BENZYLAMINO SUBSTITUTED QUINAZOLINES AND DERIVATIVES AS SOS1 INHIBITORS
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Page/Page column 89-90, (2018/07/29)
The present invention encompasses compounds of formula (I), wherein the groups R1 to R7 have the meanings given in the claims and specification, their use as inhibitors of SOS1, pharmaceutical compositions which contain compounds of this kind and their use as medicaments/medical uses, especially as agents for treatment and/or prevention of oncological diseases.
Phosphorous acid functionalized polyacrylonitrile fibers with a polarity tunable surface micro-environment for one-pot C-C and C-N bond formation reactions
Xu, Gang,Wang, Lu,Li, Mengmeng,Tao, Minli,Zhang, Wenqin
supporting information, p. 5818 - 5830 (2017/12/26)
The preparation and application of fiber catalysts have attracted much attention. However, research on the effect of the micro-environment of fiber catalysts on the catalytic activities though of special importance is limited. In this work, a novel strategy for the synthesis of phosphoric acid-functionalized polyacrylonitrile fibers with a polarity tunable surface micro-environment by hydrophobic groups for one-pot C-C and C-N bond formation reactions is reported. The special hydrophobic surface micro-environment of the fiber catalysts is proven to promote the catalytic activities impressively in cyclocondensation of β-ketoesters with 2-aminobenzamides, the Knoevenagel condensation as well as the multi-component Biginelli reactions in green solvents. Both the surface synergy of the catalytic sites and hydrophobic auxiliary groups (benzyl or n-butyl) in the surface of fiber catalysts and interface acceleration in reaction medium play an important role in the highly efficient promotion of catalytic activity. Thereby a surface synergistic mechanism is proposed to explain the micro-environment effect. In addition, the fiber catalysts could be simply separated from the reaction system using tweezers and directly used in the next cycle without further treatment. Importantly, even after 10 reaction cycles in water or ethanol, there is no significant loss in their catalytic activity. The results indicate that the phosphoric acid functionalized fibers show green and sustainable potential for industrial production.