6294-31-1Relevant articles and documents
A green disulfide synthesis method
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Paragraph 0046-0048, (2022/01/08)
The present invention discloses a green disulfide synthesis method, belonging to the field of green chemical and organic synthesis technology. Under room temperature, open, neutral conditions, rapid preparation of parent nuclei is alkanes, olefins, aromatic hydrocarbons, oxazole, thiazole, pyrazole, imidazole, etc. and their derivatives of symmetrical disulfide, the catalyst is MBrx(M is Fe2+,Fe3+,Ce3+, etc., x is 2-3), the only oxidant isH2O2. The present invention is reacted by using commercially available and low-cost reagents (e.g., FeBr2,CeBr3 andH2O2,etc.) and common organic solvents, the steps are concise, the operation is convenient, the reaction is rapid, the reaction conditions are mild, the room temperature is open, and no further purification can be obtained pure disulfide, more advantageous than all previous methods, is expected to be in organic synthesis, medicine, Pesticides and electronics and other industries are widely used.
Reaction mechanisms of thioetherification for mercaptans and olefins over sulfided Mo-Ni/Al2O3 catalysts
Shen, Zhibing,Ke, Ming,Yu, Pei,Hu, Haiqiang,Song, Zhaozheng,Jiang, Qingzhe
, p. 120 - 127 (2015/02/02)
The thioetherification reaction of 1-butanethiol and 1-hexene dissolved in n-hexane was investigatedover sulfided Mo-Ni/Al2O3catalysts. The experimental results showed the catalysts have good cat-alytic performance for thioetherification reaction, but the isomerization and hydrogenation reactions of olefins over the catalysts can inhibit thioetherification reaction. As reaction temperature increases,the isomerization and hydrogenation reactions of olefins increase rapidly, however, the inhibition of thioetherification reaction also increases. The sulfur distribution and molecular structures of sulfurcompounds in the products were analyzed by the gas chromatograph with sulfur chemiluminescencedetector (GC-SCD) and the gas chromatograph/mass spectra spectrometry (GC/MS). Two possible routesof thioetherification reaction could be observed. At low temperature, the major pathway involves a directaddition of 1-butanethiol to the terminal carbon of double bond of 1-hexene. In this mechanism, the mainproduct is anti-Markovnikov adduct. At a higher temperature, the C S bond of 1-butanethiol can be sub-sequently cleaved, and the adsorbed -SH species can be formed on the catalysts. On the same time,abundant 1-hexene can be absorbed on the catalysts, as well. Therefore, the adsorbed SH species canthen recombine with adsorbed 1-hexene to form new hexyl-mercaptans, which can continue to produceanother kind of thioether (di-hexyl sulfide) with adsorbed 1-hexene. Similar with the first reaction route,the thioether of the anti-Markonikov adduct still dominates in the product.
Microwave-assisted synthesis of disulfides using tetrathiomolybdate: A step toward greener synthesis
Sidiq, Naheed,Bhat, Mohsin Ahmad,Khan, Khaliquz Zaman,Khuroo, Mohammad Akbar
experimental part, p. 373 - 376 (2012/08/28)
An eco-friendly, efficient, and rapid synthetic procedure for disulfides using benzyl triethyl ammonium tetrathiomolybdate through microwave irradiation of solid support adsorbed reactants is reported.
