7205-61-0Relevant articles and documents
Method for synthesizing asymmetric sulfide from molecular oxygen oxidation water phase under catalysis of water-soluble transition metal compound
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Paragraph 0091, (2019/07/29)
Aiming at problems that in the prior art organic solvent pollution can be caused and a great number of reaction byproducts are generated when asymmetric sulfides are prepared, the invention disclosesa method for synthesizing an asymmetric sulfide from a molecular oxygen oxidation water phase under catalysis of a water-soluble transition metal compound. The method comprises the following steps: dispersing a sulfydryl compound and a hydrazine compound as substrates in a mole ratio of 1:1 into an alkali solution, and at 40-100 DEG C, in the presence of oxygen, and with a water-soluble transitionmetal compound as a catalyst, stirring to carry out reactions, thereby obtaining the asymmetric sulfide. By adopting the method, molecular oxygen is adopted as an oxidant, and water is adopted as a solvent, so that an organic solvent is avoided, a high yield can be achieved, and the problem of byproducts can be generally avoided.
Surfactant-Type Catalyst for Aerobic Oxidative Coupling of Hydrazine with Thiol in Water
Ren, Xuanhe,Tang, Shanyu,Li, Longjia,Li, Jiao,Liang, Helong,Li, Ganzhong,Yang, Guanyu,Li, Heng,Yuan, Bingxin
, p. 8683 - 8690 (2019/07/08)
A series of PEG-functionalized nitrogen ligands were developed to conduct an aerobic oxidative cross-coupling reaction between alkyl- or aryl-hydrazines with thiols in water. This surfactant-type catalyst enables high efficiencies and selectivities, while tolerating a large variety of functional groups. The mother liquor is still catalytically active after five runs.
Sulfonium ylide formation and subsequent C[sbnd]S bond cleavage of aromatic isopropyl sulfide catalyzed by hemin in aqueous solvent
Yan, Xiaojing,Li, Chang,Xu, Xiaofei,He, Quan,Zhao, Xiaoyong,Pan, Yuanjiang
supporting information, p. 3081 - 3087 (2019/05/08)
Heme is an abundant and widely existed cofactor for a variety of metalloenzymes, whose broader use is generally impeded by its high instability and poor solubility. Here we report an environment-benign and efficient strategy for the sulfonium ylide formation and subsequent C[sbnd]S bond cleavage of aromatic isopropyl sulfides, which was catalyzed by hemin in assistance of Triton X-100. This aqueous catalytic system exhibited good functional group tolerance to a variety of sulfides and diazo esters. And the reaction mechanism was preliminarily proposed on the basis of designed reactions. Furthermore, the cleavage of C[sbnd]S bond followed by introducing a functional ester group to aromatic sulfides, may potentially be employed for the late stage functionalization (LSF) of organosulfur drug in the future.
BET-PROTEIN INHIBITING 3,4-DIHYDROPYRIDO[2,3-B]PYRAZINONES WITH META-SUBSTITUTED AROMATIC AMINO- OR ETHER GROUPS
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Paragraph 0889; 0890; 0891, (2017/05/19)
The present invention relates to BET protein-inhibitory, especially BRD4-inhibitory 3,4-dihydropyrido[2,3-b]pyrazinones with a meta-substituted aromatic amino or ether group of the general formula (I) in which A, X, Y, R1, R2, R
Copper-catalyzed sulfenylation of boronic acids with sulfonyl hydrazides
Wang, Ting-Ting,Yang, Fu-Lai,Tian, Shi-Kai
supporting information, p. 928 - 932 (2015/03/30)
An unprecedented sulfenylation reaction of carbon-boron bonds has been developed using sulfonyl hydrazides as sulfenyl sources. A range of sulfonyl hydrazides underwent tetrakis(acetonitrile)copper(I) tetrafluoroborate [Cu(CH3CN)4BF4]/2,2′-bipyridine-catalyzed sulfenylation with boronic acids under air to give structurally diverse thioethers in moderate to good yields. Preliminary mechanistic studies show that sulfonyl hydrazides are subjected to decomposition into thiosulfonates and disulfides followed by formation of carbon-sulfur bonds with boronic acids.
BISSULFONAMIDE COMPOUNDS AS AGONISTS OF GALR1, COMPOSITIONS, AND METHODS OF USE
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Page/Page column 54, (2008/06/13)
Embodiments of the present invention provide bissulfonamide compounds that are agonists of GalR1. The present invention further provides compositions comprising bissulfonamide compounds that are agonists of GalR1, and methods of use of such compounds and compositions.
Metallation reactions. XX. Regioselective metallation of (alkylthio)methoxybenzenes by superbases versus organolithium compounds
Cabiddu,Fattuoni,Floris,Gelli,Melis
, p. 4965 - 4974 (2007/10/02)
(Alkylthio)methoxybenzenes have been metallated using two different metallating agents. The results show that sometimes superbases and butyllithium do not functionalize the same sites. Superbases monometallate the thiomethylic carbon of meta and para (methylthio)methoxybenzenes. The same substrates on the other hand are metallated by butyllithium in ortho to the methoxy group. One-step dimetallation performed with either superbases or butyllithium occurs at the thiomethylic carbon at the aryl carbon ortho to the methoxy group. Two consecutive one-pot monometallations of the para isomer (1c) with superbases occur at the thiomethylic carbon and at the annular carbon ortho to the methoxy group, in this order. A similar procedure with butyllithium metallates the two ortho positions to the methoxy group. Monometallation of (ethylthio) derivative (1d) yields, products substituted in ortho to the methoxy group using, either superbases or butyllithium. Dimetallation of this compound always substitutes the hydrogen ortho to the methoxy group and a thiomethylenic hydrogen.
