51772-30-6Relevant articles and documents
Photoredox/nickel-catalyzed hydroacylation of ethylene with aromatic acids
Chen, Shuai,He, Hengchi,Li, Weipeng,Xie, Jin,Zhang, Lili,Zhu, Chengjian
supporting information, p. 9064 - 9067 (2021/09/15)
We report a general, practical and scalable hydroacylation reaction of ethylene with aromatic carboxylic acids with the synergistic combination of nickel and photoredox catalysis. Under ambient temperature and pressure, feedstock chemicals such as ethylene can be converted into high-value-added aromatic ketones in moderate to good yields (up to 92%) with reaction time of 2-6 hours.
Synthetic method of 3 '-methyl propiophenone
-
Paragraph 0036; 0038-0039; 0041-0042; 0044, (2020/07/21)
The invention belongs to the field of organic synthesis, and discloses a synthetic method of 3 '-methyl propiophenone. The method comprises the following steps: taking m-tolualdehyde as a raw material, carrying out affinity addition reaction with an ethyl Grignard reagent to obtain 3 '-methyl phenylpropanol; and then using oxygen as an oxidizing agent, using a composite catalyst composed of nitroxide free radicals, inorganic bromide and nitrite, and performing catalytic oxidation on 3 '-methyl phenylpropanol to generate 3'-methyl propiophenone. The adopted composite catalyst is good in stability and selectivity, high in yield (up to 90% or above), reusable, safe and environment-friendly in the whole process and suitable for industrial production.
Novel benzene-based carbamates for ache/bche inhibition: Synthesis and ligand/structure-oriented sar study
Bak, Andrzej,Kozik, Violetta,Kozakiewicz, Dariusz,Gajcy, Kamila,Strub, Daniel Jan,Swietlicka, Aleksandra,Stepankova, Sarka,Imramovsky, Ales,Polanski, Jaroslaw,Smolinski, Adam,Jampilek, Josef
, (2019/05/10)
A series of new benzene-based derivatives was designed, synthesized and comprehensively characterized. All of the tested compounds were evaluated for their in vitro ability to potentially inhibit the acetyl-and butyrylcholinesterase enzymes. The selectivity index of individual molecules to cholinesterases was also determined. Generally, the inhibitory potency was stronger against butyryl-compared to acetylcholinesterase; however, some of the compounds showed a promising inhibition of both enzymes. In fact, two compounds (23, benzyl ethyl(1-oxo-1-phenylpropan-2-yl)carbamate and 28, benzyl (1-(3-chlorophenyl)-1-oxopropan-2-yl) (methyl)carbamate) had a very high selectivity index, while the second one (28) reached the lowest inhibitory concentration IC50 value, which corresponds quite well with galanthamine. Moreover, comparative receptor-independent and receptor-dependent structure–activity studies were conducted to explain the observed variations in inhibiting the potential of the investigated carbamate series. The principal objective of the ligand-based study was to comparatively analyze the molecular surface to gain insight into the electronic and/or steric factors that govern the ability to inhibit enzyme activities. The spatial distribution of potentially important steric and electrostatic factors was determined using the probability-guided pharmacophore mapping procedure, which is based on the iterative variable elimination method. Additionally, planar and spatial maps of the host–target interactions were created for all of the active compounds and compared with the drug molecules using the docking methodology.