100444-43-7

Basic information

• Product Name: 2,6-Dimethylbiphenyl-4-ol
• Synonyms: 2,6-Dimethylbiphenyl-4-ol;3,5-Dimethyl-4-phenylphenol
• CAS NO: 100444-43-7
• Molecular Formula: C₁₄H₁₄O
• Molecular Weight: 198.26
• Mol File: 100444-43-7.mol

Chemical Properties

• Appearance: /
• CAS DataBase Reference: 2,6-Dimethylbiphenyl-4-ol(CAS DataBase Reference)
• NIST Chemistry Reference: 2,6-Dimethylbiphenyl-4-ol(100444-43-7)
• EPA Substance Registry System: 2,6-Dimethylbiphenyl-4-ol(100444-43-7)

Safety Data

• Hazardous Substances Data: 100444-43-7(Hazardous Substances Data)

Usage

Uses

Used in Pharmaceutical Industry:
2,6-Dimethylbiphenyl-4-ol is used as a chemical intermediate for the production of various pharmaceuticals. Its role in this industry is crucial due to its potential to contribute to the development of new drugs and medicinal compounds.
Used in Agrochemical Industry:
Similarly, in the agrochemical sector, 2,6-Dimethylbiphenyl-4-ol serves as a chemical intermediate, aiding in the synthesis of agrochemicals that are vital for crop protection and enhancement of agricultural productivity.
Used in Organic Compounds Synthesis:
Beyond its applications in pharmaceuticals and agrochemicals, 2,6-Dimethylbiphenyl-4-ol is also utilized in the synthesis of other organic compounds, highlighting its versatility as a chemical building block in multiple chemical reactions.
Used in Antioxidant Applications:
Given its potential antioxidant properties, 2,6-Dimethylbiphenyl-4-ol is explored for use in applications requiring the prevention of oxidative damage, which can be beneficial in various industrial processes and products.
Used in Antibacterial Applications:
2,6-Dimethylbiphenyl-4-ol's potential antibacterial properties suggest its use in applications where inhibition of bacterial growth is necessary, such as in the development of antimicrobial agents or in hygiene products.

Upstream product

• 7463-51-6 4-bromo-3,5-dimethylphenol 
• 98-80-6 phenylboronic acid 
• 1078-58-6 diphenylzinc 

Downstream Products

• 1279014-13-9 (S)-2-(2,6-dimethylbiphenyl-4-yloxymethyl)-2,3-dihydro-oxazolo[3,2-a]pyrimidin-7-one 

Relevant articles and documents

[Pd(Cl)2(P(NC5H10)(C6H 11)2)2] - A highly effective and extremely versatile palladium-based negishi catalyst that efficiently and reliably operates at low catalyst loadings

[Pd(Cl)2(P(NC5H10)-(C6H 11)2]2] (1) has been prepared in quantitative yield by reacting commercially available [Pd(cod)(Cl)2] (cod = cyclooctadiene) with readily prepared 1-(dicyclohexylphosphanyl)piperidine in toluene under N2 within a few minutes at room temperature. Complex 1 has proved to be an excellent Negishi catalyst, capable of quantitatively coupling a wide variety of electronically activated, non-activated, deactivated, sterically hindered, heterocyclic, and functionalized aryl bromides with various (also heterocyclic) arylzinc reagents, typically within a few minutes at 100°C in the presence of just 0.01 mol% of catalyst. Aryl bromides containing nitro, nitrile, ether, ester, hydroxy, carbonyl, and carboxyl groups, as well as acetais, lactones, amides, anilines, alkenes, carboxylic acids, acetic acids, and pyridines and pyrimidines, have been successfully used as coupling partners. Furthermore, electronic and steric variations are tolerated in both reaction partners. Experimental observations strongly indicate that a molecular mechanism is operative.

Dichloro-bis(aminophosphine) complexes of palladium: Highly convenient, reliable and extremely active suzuki-miyaura catalysts with excellent functional group tolerance

Dichloro-bis(aminophosphine) complexes are stable depot forms of palladium nanoparticles and have proved to be excellent SuzukiMiyaura catalysts. Simple modifications of the ligand (and/or the addition of water to the reaction mixture) have allowed their formation to be controlled. Dichlorobis[1- (dicyclohexylphosphany1)piperidine]palladium (3), the most active catalyst of the investigated systems, is a highly convenient, reliable, and extremely active Suzuki catalyst with excellent functional group tolerance that enables the quantitative coupling of a wide variety of activated, nonactivated, and deactivated and/or sterically hindered functionalized and heterocyclic aryl and benzyl bromides with only a slight excess (1.1-1.2 equiv) of arylboronic acid at 80°C in the presence of 0.2 mol % of the catalyst in technical grade toluene in flasks open to the air. Conversions of >95% were generally achieved within only a few minutes. The reaction protocol presented herein is universally applicable. Side-products have only rarely been detected. The catalytic activities of the aminophosphine-based systems were found to be dramatically improved compared with their phosphine analogue as a result of significantly faster palladium nanoparticle formation. The decomposition products of the catalysts are dicyclohexylphosphinate, cyclohexylphosphonate, and phosphate, which can easily be separated from the coupling products, a great advantage when compared with non-water-soluble phosphine-based systems.

The 1,3-diaminobenzene-derived aminophosphine palladium pincer complex {C6H3[NHP(piperidinyl)2]2Pd(Cl)} - A highly active Suzuki-Miyaura catalyst with excellent functional group tolerance

The rapidly prepared 1,3-diaminobenzenederived aminophosphine pincer complex {C6H3 [NHP(piperidinyl)2] 2Pd(Cl)} (1) is an effective Suzuki catalyst with excellent functional group tolerance. Side-product formations, such as homocoupling, debromation or protodeboration have only rarely been detected and if so, were in all cases below the 5% level. The presented reaction protocol is universally applicable. Experimental observations indicate that palladium nanoparticles are the catalytically active form of 1.