625-99-0

Basic information

• Product Name: 1-Chloro-3-iodobenzene
• Synonyms: 1-chloro-3-iodo-benzen;3-Chloro-1-iodobenzene;3-Iodochlorobenzene;m-Chlorophenyl iodide;M-CHLOROIODOBENZENE;3-CHLOROIODOBENZENE;1-CHLORO-3-IODOBENZENE;M-IODOCHLOROBENZENE
• CAS NO: 625-99-0
• Molecular Formula: C₆H₄ClI
• Molecular Weight: 238.45
• EINECS: 210-920-6
• Product Categories: Aromatic Halides (substituted);Chlorine Compounds;Iodine Compounds;Aryl;C6;Halogenated Hydrocarbons;alkyl Iodine| alkyl chloride
• Mol File: 625-99-0.mol
• Article Data: 17

Chemical Properties

• Melting Point: 95-96 °C
• Boiling Point: 103-104 °C15 mm Hg(lit.)
• Flash Point: 215 °F
• Appearance: Clear light yellow/Liquid
• Density: 1.926 g/mL at 25 °C(lit.)
• Vapor Pressure: 0.102mmHg at 25°C
• Refractive Index: n20/D 1.631(lit.)
• Storage Temp.: Keep in dark place,Sealed in dry,Room Temperature
• Water Solubility: Soluble in water 67.2 mg/L.
• Sensitive: Light Sensitive
• BRN: 1904539
• CAS DataBase Reference: 1-Chloro-3-iodobenzene(CAS DataBase Reference)
• NIST Chemistry Reference: 1-Chloro-3-iodobenzene(625-99-0)
• EPA Substance Registry System: 1-Chloro-3-iodobenzene(625-99-0)

Safety Data

• Hazard Codes: Xi
• Statements: 36/37/38
• Safety Statements: 24/25
• WGK Germany: 3
• TSCA: T
• HazardClass: IRRITANT
• Hazardous Substances Data: 625-99-0(Hazardous Substances Data)

Usage

Chemical Properties

Clear light yellow liquid

Uses

Different sources of media describe the Uses of 625-99-0 differently. You can refer to the following data:
1. suzuki reaction
2. 1-Chloro-3-iodobenzene is used as a pharmaceutical intermediate.

Synthesis Reference(s)

Synthetic Communications, 11, p. 639, 1981 DOI: 10.1080/00397918108063637

General Description

The multiple-quantum proton NMR spectra of 3-chloroiodobenzene was studied.

Upstream product

• 16308-17-1 (3-chlorophenyl)iodanediyl diacetate 
• 50-81-7 ascorbic acid 
• 108-90-7 chlorobenzene 
• 108-95-2 phenol 
• 456-39-3 3-chlorobenzenediazonium tetrafluoroborate 
• 201230-82-2 carbon monoxide 
• 150177-91-6 3-bromo-1-iodylbenzene 
• 16825-75-5 1-iodyl-3-chlorobenzene 
• 4405-42-9 m-chlorophenyltrimethylsilane 
• 31928-46-8 2-bromo-1-chloro-4-iodobenzene 
• 626-01-7 3-Iodoaniline 
• 108-42-9 3-chloro-aniline 
• 535-80-8 3-chlorobenzoate 
• 36229-42-2 (3-chlorophenyl)magnesium bromide 

Downstream Products

• 535-80-8 3-chlorobenzoate 
• 53595-98-5 (3-chloro-phenyl)-(4-methoxy-phenyl)-amine 
• 51624-34-1 1-chloro-3-(2-phenylethynyl)benzene 
• 2974-10-9 1,3-bis(phenylthio)benzene 
• 587-04-2 m-Chlorobenzaldehyde 
• 7094-34-0 bis(3-chlorophenyl)methanone 
• 2050-67-1 PCB 11 
• 108-90-7 chlorobenzene 
• 18534-21-9 3-chloro-aniline; protonated form 
• 626-01-7 3-Iodo-phenylamine 
• 603-34-9 N,N-diphenylaminobenzene 
• 106336-13-4 (m-chlorophenyl)diphenylamine 
• 321-31-3 1-(3-chlorophenyl)-2,2,2-trifluoroethanone 
• 1016-78-0 3-chlorobenzophenone 

Relevant articles and documents

Synthesis of biaryl compounds via Suzuki homocoupling reactions catalyzed by metal organic frameworks encapsulated with palladium nanoparticles

Heterogeneous homocoupling reactions of phenylboronic acids were greatly accelerated via Suzuki homocoupling reactions. In this work, a tandem route was designed which firstly one part of phenylboronic acids reacted with iodine to form iodobenzenes, then another part of phenylboronic acids coupled with iodobenzenes to produce biaryl compounds. The tandem reaction were catalyzed by a bifunctional heterogeneous catalyst of metal organic frameworks encapsulated with palladium nanoparticles (Pd?MOFs). This strategy for forming symmetric C-C bond between benzene rings has obvious advantages such as high efficiency, easy separation, good recyclability and no addition of toxic halogenated benzene.

An efficient gram scale synthesis of aryl iodides from aryl diazofluoroborates in water under mild conditions

Transition metal-free synthesis of synthetically valuable aryl iodides from aryl diazofluroborates in water under mild conditions has been described. Majority of synthesized aryl iodides are obtained in quantitative yields (>99%) under present reaction conditions. The structural effects due to the substituents present on aryl diazofluoroborates did not show any satisfactory effect on the yields of the aryl iodides. Hence, the methodology presented here was found to be adventitious for the quantitative production of synthetically valuable aryl iodides.

Practical and efficient ipso-iodination of arylboronic acids via KF/I2 system

A facile and effective iododeboronation of variously substituted aryl and heteroarylboronic acids through activation and subsequent ipso-introduction of iodine is presented. The use of KF and I2 at 80 °C in 1,4-dioxane furnishes iodinated compounds in high yields.