6764-10-9

Basic information

• Product Name: 2-NITRO-4'-CHLORO DIPHENYL SULFIDE
• Synonyms: 2-NITRO-4'-CHLORO DIPHENYL SULFIDE;2-NITRO-4'-CHLORO DI;Quetiapine Impurity 2-Nitro-4-Chlorodiphenyl Sulfide
• CAS NO: 6764-10-9
• Molecular Formula: C₁₂H₈ClNO₂S
• Molecular Weight: 265.72
• Mol File: 6764-10-9.mol
• Article Data: 14

Chemical Properties

• Melting Point: 94 °C(Solv: acetic acid (64-19-7))
• Boiling Point: 383.5±27.0 °C(Predicted)
• Appearance: /
• Density: 1.41±0.1 g/cm3(Predicted)
• CAS DataBase Reference: 2-NITRO-4'-CHLORO DIPHENYL SULFIDE(CAS DataBase Reference)
• NIST Chemistry Reference: 2-NITRO-4'-CHLORO DIPHENYL SULFIDE(6764-10-9)
• EPA Substance Registry System: 2-NITRO-4'-CHLORO DIPHENYL SULFIDE(6764-10-9)

Safety Data

• Hazardous Substances Data: 6764-10-9(Hazardous Substances Data)

Usage

Description

2-Nitro-4'-chlorodiphenyl sulfide is an organic compound characterized by the presence of a nitro group at the 2-position and a chloro group at the 4'-position on a diphenyl sulfide backbone. This unique molecular structure endows it with versatile reactivity and potential applications in various chemical processes.

Uses

Used in Organic Synthesis:
2-Nitro-4'-chlorodiphenyl sulfide is used as a key intermediate in the synthesis of various organic compounds. Its distinct functional groups allow for a range of chemical reactions, making it a valuable building block for the development of pharmaceuticals, agrochemicals, and other specialty chemicals.
Used in Diaryl Sulfane Preparation:
In the field of organic chemistry, 2-nitro-4'-chlorodiphenyl sulfide is utilized for the preparation of diaryl sulfanes. This is achieved through a bismuth catalyzed cross-coupling reaction with thiophenols. The resulting diaryl sulfanes are important for the synthesis of complex organic molecules and can be further functionalized for various applications.
Used in Pharmaceutical Industry:
2-Nitro-4'-chlorodiphenyl sulfide is used as a starting material or intermediate in the synthesis of pharmaceutical compounds. Its unique structure allows for the development of new drugs with potential therapeutic benefits. The versatility of this compound enables the creation of diverse drug candidates with different mechanisms of action.
Used in Agrochemical Industry:
In the agrochemical sector, 2-nitro-4'-chlorodiphenyl sulfide is employed for the synthesis of novel agrochemicals. Its reactivity and functional groups can be leveraged to create new pesticides, herbicides, or insecticides with improved efficacy and selectivity.
Used in Specialty Chemicals:
2-nitro-4'-chlorodiphenyl sulfide is also used in the production of specialty chemicals, such as dyes, pigments, and polymer additives. Its unique properties can contribute to the development of innovative products with enhanced performance characteristics.

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Relevant articles and documents

An Iodide-Mediated Transition-Metal-Free Strategy towards Unsymmetrical Diaryl Sulfides via Arylhydrazines and Thiols

A mild, scalable iodine-mediated oxidative cross-coupling reaction of arylhydrazines and thiols for construction of thioethers (sulfides) in the absence of any transition metals or photocatalysts is disclosed. A variety of unsymmetrical diaryl sulfides with broad substrate scope both on thiols and hydrazines were synthesized in high yields in water at room temperature. Furthermore, to demonstrate the utility of the protocol, the above C-S bond formation was applied in the synthesis of the key structure of vortioxetine as an antidepressant drug. The gram-scale outcome also added to the potential utility of this protocol.

Highly active mesoionic chalcogenone zinc(II) derivatives for C-S cross-coupling reactions

The first mesoionic heavier chalcogenones, L1-L3 [L1 = 1-(2-mesitylene)-3-methyl-4-phenyltriazolin-5-selone; L2 = 1-(2-mesitylene)-3-methyl-4-phenyltriazolin-5-thione; L3 = 1-(benzyl)-2-3(methyl)-4-phenyltriazolin-5-selone], were isolated and characterised. Density functional theory was used to obtain insights into the σ donor and π accepting nature of mesoionic chalcogenones. Using these new ligands, a series of the first zinc(ii) mesoionic chalcogenone complexes were isolated. Three mono nuclear zinc(ii) chalcogenone complexes, [(L1)Zn(Cl)2(HOMe)] (1), [(L2)Zn(Cl)2(HOMe)] (3) and [(L2)Zn(Br)2(HOMe)] (4), and two dinuclear zinc complexes, [(L1)Zn(Br)(μ2-Br)]2 (2) and [(L3)Zn(Br)(μ2-Br)]2 (5), containing mesoionic thione and selone ligands were synthesized and characterised. These new complexes 1-5 represent the first structurally characterized mesoionic chalcogenone supported metal derivatives. Furthermore, all zinc complexes were characterized by thermogravimetric analysis and UV-vis spectroscopy. The solid-state structures of all zinc complexes were determined by single-crystal X-ray diffraction. The catalytic activities of the zinc(ii) complexes in thioetherification reactions were investigated without scrubbing of oxygen. The scope of the catalytic reactions was explored with a wide range of thiophenols and aryl halides. The diaryl thioethers were obtained in very good yield under mild conditions. The present protocol furnishes a synthetic route for the C-S cross-coupling of thiophenols and aryl halides without scrubbing oxygen and moisture.

Anionic Bismuth(III) chloride cluster with diselenide countercations: Application in C-S cross coupling reactions

The first weakly coordinating anion (WCA) with reactive p-block cation (rPBC) type of [(Bi4Cl16)4-{(LSeSeL)2+}2], L = 1,3-bis(2-benzhydryl-4,6-dimethylphenyl)-1H-imidazole-2(3H), ion pair is reported. The tetranuclear anionic bismuth(III) cluster shows a new type of ladder structure with two different types of Bi(III) coordination modes. In the solid state structure, the tetranuclear bismuth(III) cluster is sandwiched by two diselenide cations through hydrogen bonding interactions. Besides, this ion pair has been efficaciously employed as catalyst in C-S cross-coupling reactions under optimized reaction condition. This ion pair depicted a wide range of substrate scope with different thiols and aryl halides.