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20288-40-8

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20288-40-8 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 20288-40-8 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 2,0,2,8 and 8 respectively; the second part has 2 digits, 4 and 0 respectively.
Calculate Digit Verification of CAS Registry Number 20288-40:
(7*2)+(6*0)+(5*2)+(4*8)+(3*8)+(2*4)+(1*0)=88
88 % 10 = 8
So 20288-40-8 is a valid CAS Registry Number.

20288-40-8Relevant academic research and scientific papers

Synthesis of benzyl thioether derivatives via N-heterocyclic carbene palladium(II)-catalyzed cross coupling of benzylammonium salts with thiophenols

Wang, Tao,Guo, Jiarui,Xu, Yongli,Wang, Xiaobo,Wang, Yan,Feng, Dandan,Liu, Lantao

, (2021/12/01)

A new route to benzyl thioether derivatives has been developed via the N-heterocyclic carbene palladium(II)-catalyzed cross coupling of benzylammonium salts with thiophenols. Under the optimal conditions, different benzylammonium salts could be well toler

Two-Step Protocol for Iodotrimethylsilane-Mediated Deoxy-Functionalization of Alcohols

Chen, Yuming,He, Ru,Song, Hongjian,Yu, Guoqing,Li, Chenglin,Liu, Yuxiu,Wang, Qingmin

supporting information, p. 1179 - 1183 (2021/02/01)

We have developed a two-step protocol for iodotrimethylsilane-mediated deoxy-functionalization of primary and secondary alcohols to afford products containing a C?N, C?S, or C?O bond. In the first step the alcohol undergoes iodination with iodotrimethylsilane, and in the second, the iodine atom is replaced by a N, S, or O nucleophile. Compared with traditional Mitsunobu reaction, non-acidic pre-nucleophiles can be used, and the reaction proceeds with retention of configuration. This operationally simple, highly efficient protocol can be used for some natural products and small-molecule drugs containing hydroxy-group.

Transition-Metal-Free and Base-Promoted Carbon-Heteroatom Bond Formation via C-N Cleavage of Benzyl Ammonium Salts

Liu, Long,Tang, Yuanyuan,Wang, Kunyu,Huang, Tianzeng,Chen, Tieqiao

, p. 4159 - 4170 (2021/03/09)

A facile and general method for constructing carbon-heteroatom (C-P, C-O, C-S, and C-N) bonds via C-N cleavage of benzyl ammonium salts under transition-metal-free conditions was reported. The combination of t-BuOK and 18-crown-6 enabled a wide range of substituted benzyl ammonium salts to couple readily with different kinds of heteroatom nucleophiles, i.e. hydrogen phosphoryl compounds, alcohols, thiols, and amines. Good functional group tolerance was demonstrated. The scale-up reaction and one-pot synthesis were also successfully performed.

Aryl alkyl, aryl aryl thioether compound and its synthesis method

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Paragraph 0039-0042, (2017/08/16)

The invention discloses a synthesis method of an aryl-alkyl and aryl-aryl thioether compound represented by a formula (III). According to the synthesis method, aryl tetrafluoroboric acid diazonium salt is taken as a reaction raw material in a reaction solvent, aryl and alkyl thiosulfate is taken as a sulfurizing agent, and the materials react under the catalysis action of visible light and a photosensitive agent to obtain the aryl-alkyl and aryl-aryl thioether compound. According to the synthesis method, the raw materials are easy to obtain and are cheap, the reaction operation is simple, the reaction condition is mild and environment-friendly, the yield is higher, the functional group tolerance is excellent, later modification of drugs is successfully realized, and an efficient C-S bond construction method is provided for medicinal chemistry and biological orthogonal chemistry research.

Oxidation-Reduction Condensation of Diazaphosphites for Carbon-Heteroatom Bond Formation Based on Mitsunobu Mechanism

Huang, Hai,Kang, Jun Yong

supporting information, p. 544 - 547 (2017/02/10)

An efficient oxidation-reduction condensation reaction of diazaphosphites with various nonacidic pronucleophiles in the presence of DIAD as a weak oxidant has been developed for carbon-heteroatom bond formation. This mild process affords structurally diverse tertiary amines, secondary amines, esters, ethers, and thioethers in moderate to excellent yields. The selective synthesis of secondary amines from primary amines has been achieved. Importantly, a practical application to the synthesis of antiparkinsonian agent piribedil has been demonstrated.

Aryl-aryl, aryl-alkyl, alkyl-alkyl asymmetric the sulfur compounds and its synthetic method

-

, (2016/11/17)

The invention discloses a synthesis method of aryl-aryl, aryl-alkyl and alkyl-alkyl asymmetric persulfides as shown in a formula (II) or a formula (IV). According to the synthesis method, with sulfinic acid sodium salt, and halogenated hydrocarbon and Na2S2O3 as reaction materials or Bunte salt as a reaction material instead of the halogenated hydrocarbon and Na2S2O3, the aryl-aryl, aryl-alkyl and alkyl-alkyl asymmetric persulfides are obtained by reaction in the absence of transition metal. The synthesis method has the advantages that the reaction is efficient; the yield is high; a vulcanizing reagent is cheap, easily available, stable, and free of pungent smell; no strong acid or alkali or extra oxidizing or reducing agent is added in reaction; the condition is relatively mild; and no transition metal is used as a catalyst in the reaction, and therefore the method is economical, practical and friendly to the environment; a reaction substrate is easy to prepare; the reaction efficiency is high after the reaction is amplified, and therefore, the synthesis method has a wide application prospect and practical value.

An aryl alkyl thioether compound and its synthetic method

-

Paragraph 0166-0169, (2019/02/04)

The invention discloses a synthetic method of an aryl alkyl thioether compound shown as formula (II), and the synthetic method is as follows: at room temperature and in a water phase, using triazene and haloalkane as reaction raw materials, using Na2S2O3 as a vulcanization reagent for reaction under the promotion effect of a copper catalyst and a Lewis acid to obtain the aryl alkyl thioether compound. The advantages of the synthetic method are as follows: reaction is efficient and yield is high; the vulcanization reagent is cheap, easy to obtain, stable, and free of irritating smell; the reaction is carried out in the solvent green water, the reaction is free of addition of a phase transfer catalyst and a volatile organic solvent, and is environmentally friendly; the reaction is carried out at room temperature, is mild in condition; the catalyst copper sulfate used in the reaction is cheap and economic reaction; the reaction substrate is easy in preparation; after amplification, the reaction efficiency is higher.

Nickel-catalyzed C-S bond formation: Synthesis of aryl sulfides from arylsulfonyl hydrazides and boronic acids

Singh, Rahul,Allam, Bharat Kumar,Singh, Neetu,Kumari, Kumkum,Singh, Satish Kumar,Singh, Krishna Nand

supporting information, p. 1181 - 1186 (2015/04/22)

A practical nickel-catalysed approach has been developed for the C-S bond formation through the cross-coupling of arylsulfonyl hydrazides and aryl boronic acids. The report employs arylsulfonyl hydrazide as an aryl thiol equivalent and offers a mild and eco-safe synthesis of unsymmetrical thioethers in good to excellent yields in air. The scope and versatility of the method has been successfully demonstrated with 22 examples.

Mechanistic Study of a Photocatalyzed C-S Bond Formation Involving Alkyl/Aryl Thiosulfate

Li, Yiming,Xie, Weisi,Jiang, Xuefeng

supporting information, p. 16059 - 16065 (2015/11/03)

This study presents thioether construction involving alkyl/aryl thiosulfates and diazonium salt catalyzed by visible-light-excited [Ru(bpy)3Cl2] at room temperature in 44-86 % yield. Electron paramagnetic resonance studies found that thiosulfate radical formation was promoted by K2CO3. Conversely, radicals generated from BnSH or BnSSBn (Bn=benzyl) were clearly suppressed, demonstrating the special property of thiosulfate in this system. Transient absorption spectra confirmed the electron-transfer process between [Ru(bpy)3Cl2] and 4-MeO-phenyl diazonium salt, which occurred with a rate constant of 1.69×109 M-1 s-1. The corresponding radical trapping product was confirmed by X-ray diffraction. The full reaction mechanism was determined together with emission quenching data. Furthermore, this system efficiently avoided the over-oxidation of sulfide caused by H2O in the photoexcited system containing Ru2+. Both aryl and heteroaryl diazonium salts with various electronic properties were investigated for synthetic compatibility. Both alkyl- and aryl-substituted thiosulfates could be used as substrates. Notably, pharmaceutical derivatives afforded late-stage sulfuration smoothly under mild conditions.

Sulfide synthesis through copper-catalyzed C-S bond formation under biomolecule-compatible conditions

Zhang, Yonghong,Li, Yiming,Zhang, Xiaomei,Jiang, Xuefeng

, p. 941 - 944 (2015/01/09)

We report here an efficient and mild method for constructing C-S bonds. The reactions were carried out with Na2S2O3 as a sulfurating reagent, CuSO4 as a catalyst, and water as solvent without any surfactant. The products were achieved in moderate to excellent yields at room temperature under air. Notably, this reaction is compatible with various biomolecules including amino acids, oligosaccharides, nucleosides, proteins, and cell lysates. This journal is

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