- Preparation method of xanthate compound
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The invention discloses a preparation method of an xanthate compound. The method is characterized in that an xanthate and a chloride react at 0-60 DEG C in the presence of a phase transfer catalyst toprepare the xanthate compound with high purity and high yield. Compared with the existing method, the process for preparing xanthate compounds by phase transfer catalysis without solvent (self-solvent) is simple, the product purity is good, the yield is high, and the method is economic and environment-friendly and is suitable for industrial production.
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Paragraph 0045-0050
(2020/11/05)
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- Conformational and spectroscopic study of xanthogen ethyl formates, ROC(S)SC(O)OCH2CH3. Isolation of CH3CH2OC(O)SH
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ROC(S)SC(O)OCH2CH3, with R = CH3, (CH3)2CH and CH3(CH2)2, were obtained through the reaction between potassium xanthate salts, ROC(S)SK, and ethyl chloroformate, ClC(O)OCH2CH3. The liquid compounds were identified and characterized by 1H and 13C NMR and mass spectrometry. The conformations adopted by the molecules were studied by DFT methods. 6 conformers were theoretically predicted for R = CH3 and (CH3)2CH, while the conformational flexibility of the n-propyl substituent increases the total number of feasible rotamers to 21. For the three molecules, the conformers can be associated in 3 groups, being the most stable the AS forms - the CS double bond anti (A) with respect to the CS single bond and the SC single bond syn (S) with respect to the CO double bond - followed by AA and SS conformers. The vibrational spectra were interpreted in terms of the predicted conformational equilibrium, presenting the ν(CO) spectral region signals corresponding to the three groups of conformers. A moderated pre-resonance Raman enhancement of the ν(CS) vibrational mode of CH3(CH2)2OC(S)SC(O)OCH2CH3 was detected, when the excitation radiation approaches the energy of a n → π? electronic transition associated with the CS chromophore. UV-visible spectra in different solvents were measured and interpreted in terms of TD-DFT calculations. The unknown molecule CH3CH2OC(O)SH was isolated by the UV-visible photolysis of CH3OC(S)SC(O)OCH2CH3 isolated in Ar matrix, and also obtained as a side-product of the reaction between potassium xanthate salts, ROC(S)SK, and ethyl chloroformate, ClC(O)OCH2CH3.
- Juncal, Luciana C.,Cozzarín, Melina V.,Romano, Rosana M.
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supporting information
p. 346 - 355
(2015/01/30)
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- Novel Symmetrical and Mixed Carbamoyl and Amino Polysulfanes by Reactions of (Alkoxydichloromethyl)polysulfanyl Substrates with N-Methylaniline
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Reactions of (alkoxydichloromethyl)polysulfanes with N-methylaniline can be rationalized by a "carbamoyl" route where the alkoxydichloromethyl group behaves via loss of alkyl chloride as a "masked" acid chloride or by a "sulfenyl" route which reflects fragmentation of the (alkoxydichloromethyl)polysulfanyl functionality into the corresponding alkoxy(thiocarbonyl) and sulfenyl components (cf.Scheme I).Application of this and related chemistry to bifunctional substrates arising from partial or complete chlorination of 2Sm, R = Me, Et, i-Pr, and m = 1-4, has led to Ph(Me)N(C=O)Sn(C=O)N(Me)Ph, n = 2-12; Ph(Me)N(C=O)SnN(Me)Ph, n = 1-6; Ph(Me)NSnN(Me)Ph, n = 1-10; RO(C=S)Sn(C=O)N(Me)Ph, n = 2, 3; and RO(C=S)SnN(Me)Ph, n = 1-5.These families allowed a test of reversed-phase high-pressure liquid chromatography for evaluating homologies in polysulfane series.Treatment of bis sulfide (27c) with sulfuryl chloride in the presence of calcium carbonate conveniently gave distillable bis(chlorocarbonyl)trisulfane (14), whereas the same procedure with SO2Cl2 alone gave directly (chlorocarbonyl)disulfanyl chloride (12) (see Scheme VII).Higher Cl(C=O)SmCl, m = 3-5, were indicated but could not be isolated in the course of studies generalizing results on 14 to the preparation of higher Cl(C=O)Sn(C=O)Cl, n = 4-6.The new bis(carbamoyl) monosulfide 61 was obtained by the relatively slow triphenylphosphine or cyanide promoted desulfurization of bis(methylphenylcarbamoyl)disulfane (4) (eq. 1 and 4); cyanide treatment of the higher polysulfanes Ph(Me)N(C=O)Sn(C=O)N(Me)Ph for n > 3 rapidly gave disulfane directly (eq 5).
- Schroll, Alayne L.,Barany, George
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p. 1866 - 1881
(2007/10/02)
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