1041-15-2Relevant articles and documents
S-(4-Nitrophenyl) 4-nitrobenzene-thiosulfonate
Brito, Ivan,Albanez, Joselyn,Bolte, Michael,Cardenas, Alejandro
, p. o466-o468 (2010)
The title compound, C12H8N2O 6S2, (I), is a positional isomer of S-(2-nitro-phenyl) 2-nitrobenzenethiosulfonate [Glidewell, Low & Wardell (2000). Acta Cryst. B56, 893-905], (II). The most obvious difference between the two isomers is the rotation of the nitro groups with respect to the planes of the adjacent aryl rings. In (I), the nitro groups are only slightly rotated out of the plane of the adjacent aryl ring [2.4 (6) and 6.7 (7)°], while in (II) the nitro groups are rotated by between 37 and 52°, in every case associated with S - S - C - C torsion angles close to 90°. Other important differences between the isomers are the C - S - S(O2) - C torsion angle [78.39 (2)° for (I) and 69.8 (3)° for (II) (mean)] and the dihedral angles between the aromatic rings [12.3 (3)° for (I) and 28.6 (3)° for (II) (mean)]. There are two types of C - H...O hydrogen bond in the structure [C...O = 3.262 (7) A and C - H...O = 144°; C...O = 3.447 (7) A and C - H...O = 166°] and these link the molecules into a two-dimensional framework. The hydrogen-bond-acceptor properties differ between the two isomers.
Facile synthesis of symmetric thiosulfonates by oxidation of disulfide with oxone/MX (MX = KBr, KCl, NaBr and NaCl)
Natarajan, Palani
, p. 4131 - 4134 (2015)
Abstract A new method is described for the oxidation of aliphatic- and aromatic disulfides containing electron-donating and electron-withdrawing groups to their corresponding thiosulfonates using oxone in combination with the MX (MX = KBr, KCl, NaBr and NaCl). No obvious electronic effects influence the yields of thiosulfonates. Avoiding the usage of toxic and unstable reagents, mild reaction conditions, short reaction times and cost-effectiveness are advantages of this methodology when likened to known methods for thiosulfonates syntheses.
Synthesis of symmetrical / unsymmetrical thiosulfonates through the disproportionate coupling reaction of sulfonyl hydrazide mediated by phosphomolybdic acid
Lv, Mengting,Liu, Yufeng,Li, Ke,Yang, Guoping
supporting information, (2021/01/21)
Phosphomolybdic acid (H3PMo12O40) is reported as a green low-cost catalyst for the synthesis of symmetrical / unsymmetrical thiosulfonates via the disproportionate coupling reaction of sulfonyl hydrazide. The attributes of this reported catalytic system include low catalyst loadings (1 mol%), efficient turnover, and high yields (up to 94%). Additionally, this reaction mechanism involves the formation of a thiyl radical and sulfonyl radical via sulfinyl radical disproportionation.
Temperature-Controlled Chemoselective Synthesis of Thiosulfonates and Thiocyanates: Novel Reactivity of KXCN (X=S, Se) towards Organosulfonyl Chlorides
Kalaramna, Pratibha,Goswami, Avijit
supporting information, p. 5359 - 5366 (2021/10/25)
An efficient chemoselective protocol has been developed for the synthesis of thiosulfonates and thiocyanates by employing cost effective and commercially available organosulfonyl chlorides with potassium thio-/selenocyanate. The strategy offered the thiosulfonates and thiocyanates selectively by tuning the equivalents of KSeCN and optimizing the reaction temperature. On the other hand, thiosulfonates were obtained as sole products when organosulfonyl chlorides were treated with KSCN. Furthermore, the syntheses of diarylthioethers and aryl(heteroaryl) thioethers were carried out as a part of synthetic application of newly prepared arylthiocyanates.
Synthesis of Symmetrical Thiosulfonates via Cu(OTf)2-Catalyzed Reductive Homocoupling of Arenesulfonyl Chlorides
Liu, Lixia,Luo, Bo,Wang, Chengming
supporting information, p. 5880 - 5883 (2021/11/27)
A variety of symmetrical thiosulfonates are synthesized via Cu-catalyzed reductive homocoupling of aryl sulfonyl chlorides. This protocol uses organic amine acting as a mild reductant and low-cost copper as an effective catalyst. Such a reductive coupling process features a broad substrate scope and good functional group tolerance. Related thiosulfonate products can also be converted into diverse functional molecules.
The organocatalytic synthesis of perfluorophenylsulfides: Via the thiolation of trimethyl(perfluorophenyl)silanes and thiosulfonates
Cai, Zhihua,Du, Guangfen,He, Lin,Lin, Muze,Luo, Jinyun,Wu, Leifang
supporting information, p. 9237 - 9241 (2021/11/13)
The organic superbase t-Bu-P4-catalyzed direct thiolation of trimethyl(perfluorophenyl)silanes and thiosulfonates was developed. Yields of perfluorophenylsulfides of up to 97% under catalysis of 5 mol% t-Bu-P4 were achieved. This method was shown to provide an efficient way to construct the perfluorophenyl-sulfur bond under mild metal-free reaction conditions. This journal is
CuCl2-promoted decomposition of sulfonyl hydrazides for the synthesis of thiosulfonates
Kim, Junsu,Park, Sanggil,Kim, Hyungjun,Kim, Jinho
supporting information, (2020/07/02)
Sulfonyl hydrazides recently received much attention as reagents for the introduction of sulfur-containing functional groups into organic compounds, because both sulfonyl and sulfenyl sources could be generated by the oxidation and decomposition of the sulfonyl hydrazides, respectively. However, the transformations of sulfonyl hydrazides into thiosulfonates, which could be produced by the reaction between sulfonyl and sulfenyl sources, have been less investigated. In this manuscript, we describe CuCl2-promoted selective synthesis of thiosulfonates from sulfonyl hydrazides. A variety of thiosulfonates were produced in moderate to good yields. The mechanism involving radical intermediates such as sulfonyl radical and thiyl radical was proposed on the basis of the previously reported references and mechanistic investigations. In addition, quantum chemical simulations revealed that Cu-promoted decomposition of sulfonyl hydrazides is thermodynamically viable in the developed conditions.
Preparation method of thiosulfonate compounds in aqueous phase
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Paragraph 0063-0065, (2019/06/27)
The invention relates to a preparation method of thiosulfonate compounds in an aqueous phase. The preparation method comprises adding sulfonyl hydrazide, an accelerant, an oxidant and solvent water into a Schlenk reaction bottle, stirring to allow to react under certain temperature and air atmosphere, and carrying out free radical coupling reaction to obtain the thiosulfonate compounds.
Transition-Metal-Free Synthesis of Thiosulfonates through Radical Coupling Reaction
Zhou, Guodong,Xu, Xu-Dong,Chen, Gan-Ping,Wei, Wen-Ting,Guo, Zhiyong
supporting information, p. 2076 - 2080 (2018/09/18)
An efficient and practical transition-metal-free radical coupling reaction of sulfonyl hydrazides mediated by NIS/K 2 S 2 O 8 has been developed to afford a variety of biological activity thiosulfonates in moderate to excellent yields. Compared to a known approach for the synthesis of thiosulfonates from sulfonyl hydrazides, this strategy features high yields, mild reaction conditions, and broad substrate scope. The mechanistic studies revealed that the procedure undergoes via a radical cross-coupling process for the construction of S-S bonds.
Synthesis of sulfonyl chlorides and thiosulfonates from H2O 2-TiCl4
Bahrami, Kiumars,Khodaei, Mohammad M.,Khaledian, Donya
experimental part, p. 354 - 358 (2012/01/19)
A new method is described for the oxidative chlorination of thiols to sulfonyl chlorides using titanium tetrachloride in combination with the oxidant hydrogen peroxide. Direct conversion of thiols into their corresponding thiosulfonates is also reported. Good to excellent yields, short reaction times, high efficiencies, cost-effectiveness, and, facile isolation of the desired products make the present methodology a practical alternative.
