580-51-8

Basic information

• Product Name: 3-PHENYLPHENOL
• Synonyms: 3-PHENYLPHENOL;3-BIPHENYLOL;3-HYDROXYBIPHENYL;3-HYDROXYDIPHENYL;BIPHENYL-3-OL;M-HYDROXYBIPHENYL;M-PHENYLPHENOL;(1,1’-biphenyl)-3-ol
• CAS NO: 580-51-8
• Molecular Formula: C₁₂H₁₀O
• Molecular Weight: 170.21
• EINECS: 250-480-2
• Product Categories: Building Blocks;C9 to C20+;Chemical Synthesis;Organic Building Blocks;Oxygen Compounds;Phenols
• Mol File: 580-51-8.mol
• Article Data: 13

Chemical Properties

• Melting Point: 75-80 °C(lit.)
• Boiling Point: 120-130 °C
• Flash Point: 162.1 °C
• Appearance: White to yellow-beige/Crystalline Powder or Chunks
• Density: 1.0149 (rough estimate)
• Vapor Pressure: 6.84E-05mmHg at 25°C
• Refractive Index: 1.6188 (estimate)
• Storage Temp.: Keep in dark place,Sealed in dry,Room Temperature
• PKA: 9.64(at 25℃)
• BRN: 1907938
• CAS DataBase Reference: 3-PHENYLPHENOL(CAS DataBase Reference)
• NIST Chemistry Reference: 3-PHENYLPHENOL(580-51-8)
• EPA Substance Registry System: 3-PHENYLPHENOL(580-51-8)

Safety Data

• Hazard Codes: Xi
• Statements: 36/37/38
• Safety Statements: 26-36-37/39
• WGK Germany: 3
• Hazardous Substances Data: 580-51-8(Hazardous Substances Data)

Usage

Description

3-Phenylphenol, also known as hydroxybiphenyl, is an organic compound belonging to the class of hydroxybiphenyls. It is characterized by the presence of a phenyl group replacing the hydrogen at position 3 of a phenol molecule. This white to yellow-beige crystalline powder exhibits unique chemical properties that make it suitable for various applications.

Uses

Used in Analytical Chemistry:
3-Phenylphenol is used as a sensitive colorimetric reagent for the analysis of uronic acid. Its ability to produce color changes in the presence of specific compounds makes it a valuable tool in the field of analytical chemistry, particularly for the detection and quantification of uronic acid in various samples.
Used in Pharmaceutical Industry:
In the pharmaceutical industry, 3-Phenylphenol is utilized as an intermediate compound in the synthesis of various drugs and pharmaceutical products. Its unique chemical structure allows it to be a key component in the development of new medications, contributing to the advancement of healthcare and treatment options.
Used in Chemical Synthesis:
3-Phenylphenol is also employed as a starting material or intermediate in the synthesis of various organic compounds, including dyes, resins, and other specialty chemicals. Its versatility in chemical reactions makes it a valuable asset in the field of chemical synthesis, enabling the production of a wide range of products with diverse applications.
Used in Research and Development:
Due to its unique chemical properties and potential applications, 3-Phenylphenol is often used in research and development settings. Scientists and researchers utilize this compound to study its properties, explore its potential uses, and develop new methods for its synthesis and application in various industries.

Synthesis Reference(s)

The Journal of Organic Chemistry, 30, p. 3577, 1965 DOI: 10.1021/jo01021a515Tetrahedron Letters, 36, p. 3111, 1995 DOI: 10.1016/0040-4039(95)00485-U

InChI:InChI=1/C12H10O/c13-12-8-4-7-11(9-12)10-5-2-1-3-6-10/h1-9,13H

Upstream product

• 2051-60-7 2-chloro-1,1'-biphenyl 
• 2051-62-9 4'-biphenyl chloride 
• 22439-65-2 2-hydroxydibenzothiophene 5,5-dioxide 
• 92-52-4 biphenyl 
• 2051-61-8 m-chlorobiphenyl 
• 16372-96-6 3,5-dibromo-1,1′-biphenyl 
• 582-25-2 Potassium benzoate 
• 65-85-0 benzoic acid 
• 24382-05-6 3,4-methylenedioxybiphenyl 
• 107-14-2 chloroacetonitrile 
• 34244-66-1 cis-(2R,3S)-2,3-dihydroxy-1-phenylcyclohexa-4,6-diene 
• 108-86-1 bromobenzene 
• 87199-18-6 3-hydroxyphenylboronic acid 

Downstream Products

• 54852-73-2 3-ethoxybiphenyl 
• 16725-03-4 biphenyl-3-yl-phenyl ether 
• 51531-67-0 benzoic acid biphenyl-3-yl ester 
• 115372-47-9 phosphoric acid tris-biphenyl-3-yl ester 
• 95945-47-4 phenylcarbamic acid biphenyl-3-yl ester 
• 116402-03-0 phosphoric acid bis-biphenyl-3-yl ester-phenyl ester 
• 764666-77-5 biphenyl-3-yl-(2-chloro-ethyl)-ether 
• 2113-56-6 3-methoxybiphenyl 
• 151227-86-0 bis-biphenyl-3-yl ether 
• 90172-28-4 m-phenylphenyl p-fluorobenzoate 
• 87740-03-2 3-(3-Nitro-benzyloxy)-biphenyl 

Relevant articles and documents

Unusual Photochemistry of 4-Chlorobiphenyl in Water

The photochemistry of 4-chlorobiphenyl in deoxygenated, doubly distilled water has been studied.When the reaction is carried to completion, equimolar amounts of 3- and 4-hydroxybiphenyl are produced; no biphenyl is formed, however.Experiments proved that arenium ions, arynes, and addition-elimination mechanisms are not involved in the formation of 3-hydroxybiphenyl.A plausible alternative is that 4-chlorobiphenyl isomerizes to the 3-isomer which then undergoes photohydrolysis.This was shown to be the case by capillary gas chromatography.The unique properties of water appear to be responsible for the unusual behavior of 4-chlorobiphenyl in water.

Novel cyclodextrin-modified h-BN@Pd(II) nanomaterial: An efficient and recoverable catalyst for ligand-free C-C cross-coupling reactions in water

An environmentally friendly palladium(II) catalyst supported on cyclodextrin-modified h-BN was successfully prepared. The catalyst was characterized by FT-IR, SEM, TG, XRD and XPS, and the loading level of Pd in h-BN@β-CD@Pd(II) was measured to be 0.088?mmol g?1 by ICP. It exhibits excellent catalytic activity for the Suzuki and Heck reactions in water, and can be easily separated and consecutively reused for at least nine times. In addition, a series of pharmacologically interesting products were successfully synthesized using this catalyst to demonstrate its potential applications in pharmaceutical industries. Above all, this work opens up an interesting and attractive avenue for the use of cyclodextrin-functionalized h-BN as an efficient support for hydrophilic heterogeneous catalysts.

A dinuclear iron(II) complex bearing multidentate pyridinyl ligand: Synthesis, characterization and its catalysis on the hydroxylation of aromatic compounds

A dinuclear iron(II) complex Fe2L2(μ2-Cl)2Cl2 (L = N,N-bis(pyridin-2-ylmethyl)prop-2-yn-1-amine) was prepared and fully characterized by UV–Vis spectroscopy, elemental analysis, electrochemical analysis and X-ray single crystal diffraction analysis. The catalytic activity of the complex was assessed for the hydroxylation of aromatic compounds by using aqueous H2O2 as an oxidant in acetonitrile. The catalytic system was applicable in a wide range of substrates including aromatic compounds with both electron-donating and electron-withdrawing substituents and showed moderate to good catalytic activity and selectivity in the oxidation reactions. Particularly, in the case of benzene the selectivity of phenol achieve to 74% with the reaction conversion of 24.8%.