88-67-5

Basic information

• Product Name: 2-Iodobenzoic acid
• Synonyms: O-IODOBENZOIC ACID;RARECHEM AL BO 0686;2-IODOBENZOIC ACID;2-IODO BENZONIC ACID;BENZOIC ACID, 2-IODO-;'LGC' (4009);IODOBENZOIC-2 ACID;2-iodo-benzoicaci
• CAS NO: 88-67-5
• Molecular Formula: C₇H₅IO₂
• Molecular Weight: 248.02
• EINECS: 201-850-7
• Product Categories: Aromatic Carboxylic Acids, Amides, Anilides, Anhydrides & Salts;Benzoic acid;Organic acids;API intermediates;Acids & Esters;Iodine Compounds;C7;Carbonyl Compounds;Carboxylic Acids;Aromatics;Building Blocks;Carbonyl Compounds;Carboxylic Acids;Chemical Synthesis;Organic Building Blocks;Pharmaceutical Intermediates;Pyrrolidines
• Mol File: 88-67-5.mol
• Article Data: 96

Chemical Properties

• Melting Point: 160-162 °C(lit.)
• Boiling Point: 313.9 °C at 760 mmHg
• Flash Point: 143.6 °C
• Appearance: Light yellow to orange-brown/Powder, Crystals or Flakes
• Density: 2.25
• Vapor Pressure: 0.000205mmHg at 25°C
• Storage Temp.: Refrigerator
• Solubility: Soluble in dimethyl sulfoxide and methanol
• PKA: 2.85(at 25℃)
• Water Solubility: sparingly soluble
• Sensitive: Light Sensitive
• Stability: Stable. Incompatible with strong oxidizing agents, strong bases.
• Merck: 14,5030
• BRN: 1861406
• CAS DataBase Reference: 2-Iodobenzoic acid(CAS DataBase Reference)
• NIST Chemistry Reference: 2-Iodobenzoic acid(88-67-5)
• EPA Substance Registry System: 2-Iodobenzoic acid(88-67-5)

Safety Data

• Hazard Codes: Xn,Xi
• Statements: 22-37/38-41-36/37/38-20/21/22
• Safety Statements: 26-39-24/25-22-36
• WGK Germany: 3
• RTECS: DH2975000
• TSCA: T
• HazardClass: IRRITANT, LIGHT SENSITIVE
• Hazardous Substances Data: 88-67-5(Hazardous Substances Data)

Usage

Description

2-iodobenzoic acid and its derivatives are important pharmaceutical and chemical raw materials, which are necessary for the synthesis of various high-iodine reagents. It is commonly used as a precursor for the synthesis of 2-Iodoxybenzoic acid (IBX) and Dess-Martin peridinane, which are used as mild oxidants. It is also used in Suziki reaction.

Chemical Properties

white crystal powder. Soluble in alcohol and ether, insoluble in water.

Uses

Reagent for detection of sulfhydryl groups in proteins. 2-Iodobenzoic acid acts as a precursor in the preparation of 2-Iodoxybenzoic acid (IBX) and Dess-Martin periodinane, which finds application as an oxidizing agent in synthetic chemistry. It is also used in Suzuki reaction.

Preparation

2-Iodobenzoic acid is obtained from Anthranilic acid by diazotization and substitution. Diazotization of Anthranilic acid with sodium nitrite in the presence of sulfuric acid, control the temperature below 10℃, filter the diazotization solution, add the mixture of potassium iodide and sulfuric acid, stir for 10min after addition, and boil. Filter, wash with sodium thiosulfate solution, 2-Iodobenzoic acid can be recrystallized from water.

Definition

ChEBI: An iodobenzoic acid with a single iodo substituent placed at the 2-position.

Synthesis Reference(s)

Journal of the American Chemical Society, 93, p. 4841, 1971 DOI: 10.1021/ja00748a029

Purification Methods

Crystallise the acid repeatedly from water and EtOH. Sublime it under vacuum at 100o. [Beilstein 9 IV 1030.]

InChI:InChI=1/C7H5IO2/c8-6-4-2-1-3-5(6)7(9)10/h1-4H,(H,9,10)/p-1

Upstream product

• 615-42-9 1,2-Diiodobenzene 
• 18282-40-1 1-ethyl-2-iodobenzene 
• 26260-02-6 2-iodobenzaldehyde 
• 304-91-6 o-iodosobenzoic acid 
• 30989-24-3 bis(O-iodobenzoyl) peroxide 
• 64297-64-9 2-iodoxybenzoic acid 
• 50-81-7 L-(+)-ascorbic acid 
• 88-65-3 2-bromobenzoic-acid 
• 615-37-2 ortho-methylphenyl iodide 
• 7697-37-2 nitric acid 
• 7664-93-9 sulfuric acid 
• 7647-01-0 hydrogenchloride 
• 147-58-0 ortho-iodohippuric acid 
• 60-29-7 diethyl ether 

Downstream Products

• 88-99-3 benzene-1,2-dicarboxylic acid 
• 21905-75-9 2-carboxy-5'-methoxy-diphenyl ether 
• 530-78-9 flufenamic acid 
• 91-40-7 2-(phenylamino)benzoic acid 
• 857614-19-8 9-(2-iodo-phenyl)-acridine 
• 57861-24-2 2-(3-methyl-isothiazol-5-ylamino)-benzoic acid 
• 57357-24-1 -benzol 
• 25562-87-2 2-[4-(methylsulfanyl)phenoxy]benzoic acid 
• 51417-53-9 2-iodo-benzoic acid anhydride 
• 54997-19-2 2-(4-Octyl-phenylsulfanyl)-benzoic acid 
• 55038-74-9 2-(4-Cyclopropylphenylthio)benzoesaeure 
• 50900-46-4 2-(4-Cyclopentyl-phenylsulfanyl)-benzoic acid 
• 54997-20-5 2-(4-Dodecyl-phenylsulfanyl)-benzoic acid 
• 40400-28-0 2-(4-Methylselanyl-phenylsulfanyl)-benzoic acid 

Relevant articles and documents

Perfluoroalkyl Cobaloximes: Preparation Using Hypervalent Iodine Reagents, Molecular Structures, Thermal and Photochemical Reactivity

Treatment of cobaloximes(II), [Co(Hdmg)2(L)2] (Hdmg = dimethylglyoximate, L = neutral ligand), with perfluoroalkyl iodane reagents leads to the formation of perfluoroalkyl cobaloximes(III), [CoRF(Hdmg)2(L)] (RF = CF3, C2F5, n-C3F7, CF2CF2Ph; L = Py, NH3, MeNH2, PhNH2, MeOH). The synthetic protocol can be significantly simplified to a one-pot procedure starting from cobalt(II) acetate-tetrahydrate. The products have been fully characterized by NMR, IR, and UV/vis spectroscopy as well as single-crystal X-ray diffraction, and the thermal and photochemical reactivity has been studied. According to the Co-L distances in the crystal, the trans influence of the RF- ligands can be rated as C2F5- ≈ n-C3F7- 2CF2Ph- ≈ CF3- 3-. The thermal decomposition of the complexes is different from that of nonfluorinated analogues, probably including perfluoroalkylation of an Hdmg- ligand as the initial step. In the CF3 complexes, the Co-C bond is very resistant against photolysis, but the ligand L is readily exchanged by MeOH upon exposure to blue light. In the complexes with longer RF chains, the Co-C bond is more readily cleaved, and the product distribution depends strongly on the presence of O2. Thus, the alkane RFH is the main product under exclusion of O2, while a fluorinated methyl ester and HF are formed in a methanol solution exposed to air.

Aerobic oxidation of aldehydes to carboxylic acids catalyzed by recyclable ag/c3 n4 catalyst

The oxidation of aldehydes is an efficient methodology for the synthesis of carboxylic acids. Herein we hope to report a simple, efficient and recyclable protocol for aerobic oxidation of aldehydes to carboxylic acid by using C3N4 supported silver nanoparticles (Ag/C3N4) as a catalyst in aqueous solution under mild conditions. Under standard conditions, the corresponding carboxylic acids can be obtained in good to excellent yields. In addition, Ag/C3N4 is convenient for recovery and could be reused three times with satisfactory yields.

Efficiency of lithium cations in hydrolysis reactions of esters in aqueous tetrahydrofuran

Lithium cations were observed to accelerate the hydrolysis of esters with hydroxides (KOH, NaOH, LiOH) in a water/tetrahydrofuran (THF) two-phase system. Yields in the hydrolysis of substituted benzoates and aliphatic esters using the various hydroxides were compared, and the effects of the addition of lithium salt were examined. Moreover, it was presumed that a certain amount of LiOH was dissolved in THF by the coordination of THF with lithium cation and hydrolyzed esters even in the THF layer, as in the reaction by a phase-transfer catalyst.