7570-96-9

Basic information

• Product Name: 2-(phenylsulfanyl)naphthalene
• CAS NO: 7570-96-9
• Molecular Formula: C₁₆H₁₂S
• Molecular Weight: 236.3315
• Mol File: 7570-96-9.mol

Chemical Properties

• Boiling Point: 397.5°C at 760 mmHg
• Flash Point: 192°C
• Density: 1.19g/cm³
• Vapor Pressure: 3.63E-06mmHg at 25°C
• Refractive Index: 1.704
• CAS DataBase Reference: 2-(phenylsulfanyl)naphthalene(CAS DataBase Reference)
• NIST Chemistry Reference: 2-(phenylsulfanyl)naphthalene(7570-96-9)
• EPA Substance Registry System: 2-(phenylsulfanyl)naphthalene(7570-96-9)

Safety Data

• Hazardous Substances Data: 7570-96-9(Hazardous Substances Data)

Usage

Chemical structure

Consists of a naphthalene ring with a phenylsulfanyl group attached at the 2 position.

Class of compounds

Belongs to the class of compounds known as sulfides.

Characteristic

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Usage

Used in organic synthesis as a building block for the construction of more complex molecules and as a starting material for the preparation of specific types of pharmaceuticals and agrochemicals.

Importance

Its chemical properties make it a valuable tool in the development of new materials and potential drug candidates.

Upstream product

• 108-86-1 bromobenzene 
• 580-13-2 2-bromonaphthalene 
• 1192-40-1 copper(I) thiophenolate 
• 73632-20-9 sodium 1-naphthalenethiolate 
• 13133-62-5 thiophenolate 
• 93-04-9 2-Methoxynaphthalene 
• 108-98-5 thiophenol 
• 90-11-9 1-Bromonaphthalene 
• 7664-41-7 ammonia 
• 930-69-8 sodium thiophenolate 
• 91-60-1 2-Naphthalenethiol 
• 108-90-7 chlorobenzene 
• 91-58-7 2-chloronaphthalene 
• 70347-73-8 2-naphthylsulfenyl chloride 

Downstream Products

• 13285-01-3 2-(phenylsulfinyl)naphthalene 
• 7570-98-1 1-naphthyl phenyl sulfide 
• 205-43-6 Benzo[b]naphtho[1,2-d]thiophene 
• 243-46-9 benzo[b]naphtho[2,3-d]thiophene 
• 32338-05-9 2-(phenylsulfonyl)naphthalene 

Relevant articles and documents

Rh(I)-Catalyzed Intramolecular Decarbonylation of Thioesters

Decarbonylative synthesis of thioethers from thioesters proceeds in the presence of a catalytic amount of [Rh(cod)Cl]2 (2 mol %). The protocol represents the first Rh-catalyzed decarbonylative thioetherification of thioesters to yield valuable thioethers. Notable features include the absence of phosphine ligands, inorganic bases, and other additives and excellent group tolerance to aryl chlorides and bromides that are problematic using other metals to promote decarbonylation. Gram scale synthesis, late-stage pharmaceutical derivatization, and orthogonal site-selective cross-couplings by C-S/C-Br cleavage are reported.

Pd-Catalyzed Double-Decarbonylative Aryl Sulfide Synthesis through Aryl Exchange between Amides and Thioesters

We report the palladium-catalyzed double-decarbonylative synthesis of aryl thioethers by an aryl exchange reaction between amides and thioesters. In this method, amides serve as aryl donors and thioesters are sulfide donors, enabling the synthesis of valuable aryl sulfides. The use of Pd/Xantphos without any additives has been identified as the catalytic system promoting the aryl exchange by C(O)-N/C(O)-S cleavages. The method is amenable to a wide variety of amides and sulfides.

Forging C?S(Se) Bonds by Nickel-catalyzed Decarbonylation of Carboxylic Acid and Cleavage of Aryl Dichalcogenides

A nickel-catalyzed decarbonylation of carboxylic acids cross-coupling protocol has been developed for the straightforward C?S(Se) bond formation. This reaction is promoted by a commercially-available, user-friendly, inexpensive, air and moisture-stable nickel precatalyst. Various carboxylic acids and a wide range of aryl dichalcogenide substrates were tolerated in this process which afforded products in good to excellent yields. In addition, the present reaction can be conducted on gram scale in good yield.

Aryl thioether compound and preparation method thereof

The invention discloses an aryl thioether compound and a synthesis method thereof, wherein an aryl carboxylic acid and a mercaptan (phenol) are used as main raw materials, and a nickel catalyst is prepared. Under the action of the phosphine ligand and the additive, the aryl carboxylic acid and the thiol (phenol) react in an organic solvent, and after the reaction is finished, the corresponding aryl thioether is obtained. The method has the advantages of low cost, high yield, simple and convenient operation, no pollution and the like, and has potential industrial application prospects. The method provides a cheap and green way for preparation of aryl thioether compounds.

Chan-Lam-Type C-S Coupling Reaction by Sodium Aryl Sulfinates and Organoboron Compounds

A Chan-Lam-Type C-S coupling reaction using sodium aryl sulfinates has been developed to provide diaryl thioethers in up to 92% yields in the presence of a copper catalyst and potassium sulfite. Both electron-rich and electron-poor sodium aryl sulfinates and diverse organoboron compounds were tolerated for the synthesis of aryl and heteroaryl thioethers and dithioethers. The mechanistic study suggested that potassium sulfite was involved in the deoxygenation of sulfinate through a radical process.

Scalable electrochemical reduction of sulfoxides to sulfides

A scalable reduction of sulfoxides to sulfides in a sustainable way remains an unmet challenge. This report discloses an electrochemical reduction of sulfoxides on a large scale (>10 g) under mild reaction conditions. Sulfoxides are activated using a substoichiometric amount of the Lewis acid AlCl3, which could be regeneratedviaa combination of inexpensive aluminum anode with chloride anion. This deoxygenation process features a broad substrate scope, including acid-labile substrates and drug molecules.

C[sbnd]S cross-coupling catalyzed by a series of easily accessible, well defined Ni(II) complexes of the type [(NHC)Ni(Cp)(Br)]

The synthesis, characterization and catalytic evaluation of a series of NHC-Ni(II) complexes 1-Ni (-Me), 2-Ni (-nBu) and 3-Ni (-Bn) bearing a phthalimide fragment and a cyclopentadienyl (Cp) ligand is reported. The complexes were evaluated in C

Achieving Nickel Catalyzed C-S Cross-Coupling under Mild Conditions Using Metal-Ligand Cooperativity

A simple and efficient approach of C-S cross-coupling of a wide variety of (hetero)aryl thiols and (hetero)aryl halides under mild conditions, mostly at room temperature, catalyzed by well-defined singlet diradical Ni(II) catalysts bearing redox noninnocent ligands is reported. Taking advantage of ligand centered redox events, the high-energetic Ni(0)/Ni(II) or Ni(I)/Ni(III) redox steps were avoided in the catalytic cycle. The cooperative participation of both nickel and the coordinated ligands during oxidative addition/reductive elimination steps allowed us to perform the catalytic reactions under mild conditions.

Iodine-Promoted Tunable Synthesis of 2-Naphthyl Thioethers and 1-Naphthyl Thioethers

An iodine-promoted regioselective sulfenylation/deoxygenation/aromatization reaction of 1-tetralones with disulfides has been developed. This process could be modified to synthesize 2-naphthyl thioethers and 1-naphthyl thioethers in moderate to excellent

Generation of Aryl Radicals from Aryl Halides: Rongalite-Promoted Transition-Metal-Free Arylation

A new and practical method for the generation of aryl radicals from aryl halides is reported. Rongalite as a novel precursor of super electron donors was used to initiate a series of electron-catalyzed reactions under mild conditions. These transition-metal-free radical chain reactions enable the efficient formation of C-C, C-S, and C-P bonds through homolytic aromatic substitution or SRN1 reactions. Moreover, the synthesis of antipsychotic drug Quetiapine was performed on gram scale through the described method. This protocol demonstrated its potential as a promising arylation method in organic synthesis.