14204-26-3Relevant academic research and scientific papers
The Rh(II)-catalyzed formal N-S bond insertion reaction of aryldiazoacetates into: N -phenyl-sulfenyl phthalimide
Song, Zhuang,Wu, Yizhou,Xin, Tao,Jin, Chao,Wen, Xiaoan,Sun, Hongbin,Xu, Qing-Long
, p. 6079 - 6082 (2016)
The Rh(ii)-catalyzed sulfur ylide [1,2]-rearrangement of carbenoids generated from aryldiazoacetates has been realized via N-S bond insertion, generating tertiary sulfides in moderate to excellent yields. This demonstrates the first use of the sulfur ylide [1,2]-rearrangement undergoing N-S bond insertion. This protocol could proceed smoothly with high regioselectivity, low catalyst loading (0.1 mol% Rh2(OAc)4), gram-scale reaction and broad substrate scope. And the product could be converted into glycine derivatives through simple procedures.
Electrochemical Direct Thiolation of Lactams with Mercaptans: An Efficient Access to N-Acylsulfenamides
Wei, Zhaoxin,Wang, Renjie,Zhang, Yonghong,Wang, Bin,Xia, Yu,Abdukader, Ablimit,Xue, Fei,Jin, Weiwei,Liu, Chenjiang
supporting information, p. 4728 - 4732 (2021/09/10)
An efficient and eco-friendly electrochemical methodology for the oxidative cross coupling hydrogen evolution (CCHE) reactions of lactams with thiols is presented. Various electron deficient N-acylsulfenamides are smoothly produced in modest to excellent yields without using any external oxidant. Elementary mechanistic insight supports a possible free radical process and hydrogen is the only side product. This approach provides a safe, convenient, and economical preparation of synthetically important N-thiophthalimides on a gram scale.
Comparison of conventional and microwave-assisted synthesis of some new sulfenamides under free catalyst and ligand
Yakan, Hasan,Kütük, Halil
, p. 2047 - 2057 (2018/09/25)
Abstract: Sulfenamide and its derivatives (S–N bond) have been synthesized with classical method in the literature. However, microwave-assisted synthesis of a series of N-(substituted phenylthio), N-(benzylthio), N-(cyclothio), and N-(2-mercaptobenzimidazolyl)amines has been not in the literature yet. They have been obtained from treating some amines (4?mmol) with thiophthalimides (PhthSR, 1?mmol) using sulfur transfer reagent in the presence of 2-ethoxyethanol (β-ee, neat) under microwave irradiation at 50?°C. The scope of this reaction was shown by the efficient synthesis of sulfenamides in good to excellent yields of 70–98% under free catalyst and ligand. Nine of the synthesized sulfenamide derivatives are novel. All of the thiols react with morpholine to give corresponding sulfenamides in excellent yields of 78–98%. Thiophenol, 4-methylthiophenol, 4-chlorothiophenol, and 4-fluorothiophenol react with cyclohexylamine to give corresponding sulfenamides in high yields 81–92%. Thiophenol, 4-methylthiophenol, 4-chlorothiophenol react with pyrrolidine to give corresponding sulfenamides in good yields of 70–76%. We observed that the reaction of t-butylamine with N-(phenylthio)phthalimide gave desired sulfenamide under microwave irradiation in the presence of DPPH as radical scavenger reagent in high yield of 93%. Aniline, benzylamine, 1-hexylamine, ethanolamine, diethylamine, N-ethyl-n-butylamine, N-ethylaniline, N-benzylmethylamine, t-butylamine react with thiols to give symmetrical disulfides instead of desired products under microwave irradiation, 2-ethoxyethanol as a solvent (neat), and at 50?°C. In this study, microwave-assisted synthesis method was compared with the classical method. All the products obtained were purified with chromatographic method and the analysis of these products was confirmed with IR, 1H NMR, 13C NMR spectroscopy, MS spectrometry, and elemental methods. Graphical abstract: [Figure not available: see fulltext.].
Controlled chemical release of hydrogen sulfide
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Page/Page column 17, (2015/09/22)
Agents of formula: where R1 and R2 vary independently and are acyl, sulfonyl, phosphoryl, alkyl, substituted alkyl, halogen, aryl, arylalkyl, substituted aryl, heteroaryl, alkenyl, substituted alkenyl, alkynyl, substituted alkynyl, cycloalkyl, heterocycle, or heteroatoms; and R3 is H or a member of a ring structure which includes R2, are provided; as are agents of formula: where R1, R2 and R3 vary independently and: R1=OH, OR′, NHR′, NR′R″ (with R′ R″=alkyl, aryl, heteroaryl, etc); R2=acyl, alkyl, aryl, sulfonyl, etc; R3=alkyl, aryl, substituted aryl, heteroaryl, etc; and R4 and R5 are (independently) H, methyl or alkyl, substituted alkyl, aryl, substituted aryl, etc. Methods of using the agents to treat e.g. cardiovascular disease, stroke, shock, injuries caused by hypoxia, male erectile dysfunction, and Alzheimer's are provided.
Preparation of sulfenyl pyrroles
Gillis, H. Martin,Greene, Lana,Thompson, Alison
experimental part, p. 112 - 116 (2009/06/18)
Sulfenyl groups are attracting interest as masking/protecting groups for pyrroles. A facile one-step synthesis of sulfenyl pyrroles, involving the reaction of pyrroles with N-(aryl- and alkylthio)phthalimides in the presence of MgBr2, is reported and the methodology extends to include sulfinyl pyrroles. The one-step procedure gives good yields and is more efficient and practical than current multistep protocols to sulfenyl pyrroles that involve thiocyanato pyrrolic intermediates. A convenient procedure for the synthesis of N-(aryl- and alkylthio)phthalimides is also reported. Georg Thieme Verlag Stuttgart.
N-Thiolated β-lactam antibacterials: Effects of the N-organothio substituent on anti-MRSA activity
Heldreth, Bart,Long, Timothy E.,Jang, Seyoung,Reddy, G. Suresh Kumar,Turos, Edward,Dickey, Sonja,Lim, Daniel V.
, p. 3775 - 3784 (2007/10/03)
A study on the structure-activity profiles of N-thiolated β-lactams 1 is reported which demonstrates the importance of the N-organothio moiety on antibacterial activity. Our results indicate that elongation of the N-alkylthio residue beyond two carbons, or extensive branching within the organothio substituent, diminishes antibacterial effects. Of the derivatives we examined, the N-sec-butylthio β-lactam derivative 5g possesses the strongest growth inhibitory activity against methicillin-resistant Staphylococcus aureus strains. Sulfur oxidation state is important, as the N-sulfenyl and N-sulfinyl groups provide for the best antibacterial activity, while lactams bearing the N-sulfonyl or N-sulfonic acid functionalities have much weaker or no anti-MRSA properties. Stereochemistry within the organothio chain does not seem to be a significant factor, although for N-sec-butylthio β-lactams 15a-d, the 3R,4S-lactams 15c, d are more active than the 3S,4R-stereoisomers 15a, b in agar diffusion experiments. The N-methylthio lactams are the most sensitive to the presence of glutathione, followed by N-ethylthio and N-sec-butylthio lactams, which indicates that bioactivity and perhaps bacterial selectivity of the lactams may be related to the amount of organothiols in the bacterial cell. These results support the empirical model for the mechanism of action of the compounds in which the lactam transverses the bacterial membrane to deliver the organothio moiety to its cellular target.
PHOTOCHEMISTRY OF FLAVINS WITH SULFUR-ACTIVATED CARBOXYLIC ACIDS: IDENTIFICATION AND REACTIONS OF THE PHOTOPRODUCTS.
Eberlein,Powell
, p. 3309 - 3317 (2007/10/02)
Photoreduction of 3-methyllumiflavin by alpha -sulfide- or alpha -disulfide-substituted carboxylic acids does not give dihydroflavin-4a-sulfur adducts or result in the sulfur-carbon bond scission as claimed previously. Instead decarboxylation of the acid
