5961-98-8Relevant articles and documents
PhICl2/NH4SCN-Mediated Oxidative Regioselective Thiocyanation of Pyridin-2(1H)-ones
Tao, Shanqing,Xiao, Jiaxi,Li, Yadong,Sun, Fengxia,Du, Yunfei
supporting information, p. 2536 - 2546 (2021/07/31)
The reaction of pyridin-2(1H)-ones with PhICl2 and NH4SCN enables an efficient regioselective thiocyanation, leading to the synthesis of the biologically interesting C5 thiocyanated 2-pyridones in good to high yields. The mechanistic pathway of this metal-free approach is postulated to involve the formation of the reactive thiocyanogen chloride from the reaction of PhICl2 and NH4SCN followed with the regioselective electrophilic thiocyanation of the pyridin-2(1H)-one ring.
Albendazole synthesis method
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Paragraph 0037-0046, (2019/03/25)
The invention discloses an albendazole synthesis method. The albendazole synthesis method includes reacting ammonium thiocyanate with chlorine gas in a lower alcohol solvent to obtain chlorothiocyanate, reacting ortho-nitroaniline with the chlorothiocyanate in the lower alcohol solvent to obtain 4-thiocyano-2-nitroaniline, reacting the 4-thiocyano-2-nitroaniline with a sodium hydroxide solution toobtain 4-sodium sulfonate-2-nitroaniline, performing hydrochloric acid acidification to obtain 4-mercapto-2-nitroaniline, subjecting the 4-mercapto-2-nitroaniline and propylene to Markovnikov addition reaction to obtain 4-propylthio-2-nitroaniline, and reacting 4-propylthio-o-phenylenediamine with methylcyanocarbamate to obtain albendazole. The albendazole synthesis method has the advantages thata novel synthetic route is applied to prepare the albendazole, the defects of high impurity quantity and low yield in the current production process are overcome, the chlorothiocyanate is prepared toserve as an intermediate and then reacts with the ortho-nitroaniline, and impurities can be avoided effectively; the propylene is introduced for the addition reaction, raw materials are clean and free from pollution, introduction of highly toxic sodium cyanide is avoided, the total yield is high, and the albendazole synthesis method has a good industrialization prospect.
Structure, spectroscopy, and thermal decomposition of 5-chloro-1,2,3,4-thiatriazole: A He i photoelectron, infrared, and quantum chemical study
Pasinszki, Tibor,Dzsotján, Dániel,Vass, Gábor,Guillemin, Jean-Claude
, p. 1603 - 1610 (2015/10/28)
5-Chloro-1,2,3,4-thiatriazole has been investigated in the gas phase for the first time by mid-infrared and He I photoelectron spectroscopy. The ground-state geometry has been obtained from quantum chemical calculations at the CCSD(T) and B3LYP levels using aug-cc-pVTZ basis set. Ionization potentials have been determined and the electronic structure has been discussed within the frame of molecular orbital theory. IR and photoelectron spectroscopies, supported by quantum chemical calculations at the B3LYP and SAC-CI levels, provide a detailed investigation into the vibrational and electronic character of the molecule. Thermal stability of 5-chloro-1,2,3,4-thiatriazole has been studied both experimentally and theoretically. Flash vacuum thermolysis of the molecule produces fast quantitatively N2, ClCN, and sulfur. Theoretical calculations at the CCSD(T)//B3LYP level predict competitive decomposition routes, starting either with a retro-cycloaddition reaction leading to N2S and ClCN or with a ring opening to chlorothiocarbonyl azide intermediate, to produce finally N2, S, and ClCN. Calculations also predict that N2S is reactive and decomposes in bimolecular reactions to N2 and S2.
