4783-70-4

Upstream product

• 109-04-6 2-bromo-pyridine 
• 108-95-2 phenol 
• 4783-68-0 2-phenoxypyridine 
• 95-57-8 2-monochlorophenol 

Downstream Products

• 2040-90-6 2-chloro-6-fluorophenol 
• 603-86-1 2-chloro-6-nitrophenol 
• 1446517-44-7 (3-chloro-2-(pyridin-2-yloxy)phenyl)(phenyl)methanone 

Relevant academic research and scientific papers

Ir-Catalyzed Ligand-Free Directed C-H Borylation of Arenes and Pharmaceuticals: Detailed Mechanistic Understanding

An efficient method for Ir-catalyzed ligand free ortho borylation of arenes (such as, 2-phenoxypyridines, 2-anilinopyridines, benzylamines, benzylpiperazines, benzylmorpholines, benzylpyrrolidine, benzylpiperidines, benzylazepanes, α-amino acid derivatives, aminophenylethane derivatives, and other important scaffolds) and pharmaceuticals has been developed. The reaction underwent via an interesting mechanistic pathway, as revealed by the detailed mechanistic investigations by using kinetic isotope studies and DFT calculations. The catalytic cycle is found to involve the intermediacy of an Ir-boryl complex where the substrate C-H activation is the turnover determining step, intriguingly without any appreciable primary KIE. The method displays a broad range of substrate scope and functional group tolerance. Numerous late-stage borylation of various important molecules and drugs were achieved using this developed strategy. The borylated compounds were further converted into more valuable functionalities. Moreover, utilizing the benefit of the B-N intramolecular interaction of the mono borylated compounds, an operationally simple method has been developed for the selective diborylation of 2-phenoxypyridines and numerous functionalized arenes. Furthermore, the synthetic utility has been showcased with the removal of the pyridyl directing group from the borylated product to achieve ortho borylated phenol along with the ipso-borylation for the preparation of 1,2-diborylated benzene.

A ortho-nitro phenol and its derivative synthesis method (by machine translation)

The invention relates to a method for the synthesis of organic compounds, in the existing technology of O-nitrophenol strong acid used in the synthesis process of the serious problem of environmental pollution and the synthesis step longer more complicated problem, the invention provides a ortho-nitro phenol and synthetic method of derivative thereof, proceeding by the phenol compound, synthesis of 2 - (phenoxy) pyridine, the obtained product, catalyst, tert-butyl nitrite, organic solvent and adding sealing in the pressure containers, in oil bath heating 50 - 100 °C, reaction 10 - 30 hours, to obtain 2 - (2 - nitrobenzene) ethoxy pyridine; re-processing by the ortho-nitro phenol and its derivatives; the method is simple, high-efficiency. (by machine translation)

Ruthenium-catalyzed ortho/meta-selective dual C-H bonds functionalizations of arenes

The first example of transition-metal-catalyzed ortho/metaselective dual C-H functionalizations of arenes in one reaction is described. In this transformation, ortho-C-H chlorination and meta-C-H sulfonation of 2-phenoxypyri(mi)dines were achieved simultaneously under catalysis by [Ru(p-cymene)Cl2]2. The other reactant, namely, an arylsulfonyl chloride, played the role of both a sulfonation and chlorination reagent. More importantly, the arylsulfonyl chloride was also an oxidant in the process. Mechanistic studies indicated that six-membered ruthenacycles were the key intermediate in the reaction.

An ortho-nitro phenol synthetic method of compound

The invention relates to a synthesis method of o-nitrophenol compounds, solving the problems that production hazards are easily caused due to the release of a large deal of heat during the synthesis of o-nitrophenol and the severe environment pollution caused due to the generation of a large deal of waste gas and acid in the process in the prior art. The invention provides the synthesis method of the o-nitrophenol compounds, which comprises the steps: synthesizing 2-(phenoxy)pyridine from phenol compounds; and then sequentially adding 2-(phenoxy)pyridine and a catalyst, a nitrating reagent, an oxidant and an organic solvent into a sealed pressure container, heating and reacting for 10-50 hours in an oil bath of which the temperature is 80 DEG C-130 DEG C to obtain 2-(2-nitrophenyl)oxy pyridine; and finally treating to obtain o-nitrophenol. The synthesis method is simple, convenient and efficient.

Synthesis of 2 - fluoro phenol compounds

The present invention provides a method for synthetizing a 2-fluoro phenol compound shown in a formula IV. The phenol compound shown in the formula I is prepared into a 2-pyridine oxygroup arene compound shown in a formula II through an Ullmann reaction, the 2-pyridine oxygroup arene compound shown in the formula II is mixed with a palladium catalyst, a fluorinating reagent, an additive and an organic solvent, the mixture is stirred under the temperature of 30-160 DEG C to perform a fluorination reaction to obtain an ortho-position fluoridated 2-pyridine oxygroup arene compound shown in a formula III, and the ortho-position fluoridated 2-pyridine oxygroup arene compound shown in the formula III is prepared into the 2-fluoro phenol compound shown in the formula IV through the action of alkali. The method provided by the present invention has the advantages of mild reaction conditions, simplicity in operations, good substrate adaptability, high fluorination selectivity and the like. The 2-fluoro phenol compound is shown in the figure below.

Palladium-catalyzed decarboxylative coupling of α-oxocarboxylic acids with C(sp2)-H of 2-aryloxypyridines

An efficient palladium-catalyzed decarboxylative ortho-acylation of 2-aryloxypyridines with α-oxocarboxylic acids is described. In this new transformation, the aromatic C(sp2)-H bond was successfully acylated to give diverse aromatic ketones regioselectively in moderate to good yields. The pyridine group can be removed easily after the acylation to give the corresponding 2-hydroxy aromatic ketones. Copyright