13098-94-7

Basic information

• Product Name: 4-methoxyphenyl propanoate
• Synonyms: 4-Methoxyphenyl propionate; Anisyl propionate; phenol, 4-methoxy-, propanoate; Propanoic acid, 4-methoxyphenyl ester
• CAS NO: 13098-94-7
• Molecular Formula: C₁₀H₁₂O₃
• Molecular Weight: 180.2005
• Mol File: 13098-94-7.mol

Chemical Properties

• Boiling Point: 263.4°C at 760 mmHg
• Flash Point: 104.6°C
• Density: 1.075g/cm³
• Vapor Pressure: 0.0103mmHg at 25°C
• Refractive Index: 1.495
• CAS DataBase Reference: 4-methoxyphenyl propanoate(CAS DataBase Reference)
• NIST Chemistry Reference: 4-methoxyphenyl propanoate(13098-94-7)
• EPA Substance Registry System: 4-methoxyphenyl propanoate(13098-94-7)

Safety Data

• Hazardous Substances Data: 13098-94-7(Hazardous Substances Data)

Upstream product

• 123-62-6 propionic acid anhydride 
• 150-76-5 4-methoxy-phenol 
• 74-85-1 ethene 
• 201230-82-2 carbon monoxide 
• 430-71-7 propionyl fluoride 
• 696-62-8 para-iodoanisole 
• 802294-64-0 propionic acid 
• 92101-35-4 3-(4-methoxyphenyl)-2-methylpentan-3-ol 
• 121-97-1 4-Methoxypropiophenone 
• 1612216-65-5 4-methoxyphenyl 2-bromopropanoate 
• 1612216-58-6 4-methoxyphenyl 2-iodopropanoate 
• 79-03-8 propionyl chloride 

Downstream Products

• 49710-99-8 1-(2-hydroxy-5-methoxyphenyl)-1-propanone 
• 74-85-1 ethene 
• 150-76-5 4-methoxy-phenol 
• 15376-83-7 (triphenylphosphine)3(CO)nickelk 
• 108-95-2 phenol 
• 80427-31-2 1-(5-Hydroxy-2-methoxy-phenyl)-propan-1-one 
• 80427-25-4 Propionic acid 4-methoxy-3-propionyl-phenyl ester 
• 86294-76-0 2-(Trimethylsilyl)propansaeure-(4-methoxyphenyl)ester 
• 86311-65-1 (Z)-1-(4-Methoxyphenoxy)-1-(trimethylsiloxy)propen 
• 938-46-5 2',5'-dihydroxypropiophenone 

Relevant articles and documents

Palladium-Catalyzed Direct Dicarbonylation of Amines with Ethylene to Imides

The selective and effective conversion of low-cost and simple bulk chemicals into high value-added products through catalytic strategy has a wide range of practical significance. Here, a palladium-catalyzed method for the direct and efficient dicarbonylation of amines with basic industrial feedstock ethylene to imide has been developed. Moderate to excellent yields of the desired imides can be produced from readily available amines in a straightforward manner.

Carboxylic Acid Deoxyfluorination and One-Pot Amide Bond Formation Using Pentafluoropyridine (PFP)

This work describes the application of pentafluoropyridine (PFP), a cheap commercially available reagent, in the deoxyfluorination of carboxylic acids to acyl fluorides. The acyl fluorides can be formed from a range of acids under mild conditions. We also demonstrate that PFP can be utilized in a one-pot amide bond formation via in situ generation of acyl fluorides. This one-pot deoxyfluorination amide bond-forming reaction gives ready access to amides in yields of ≤94%.

Palladium-Catalyzed Esterification of Carboxylic Acids with Aryl Iodides

The first palladium-catalyzed esterification of carboxylic acids with aryl iodides is described. A palladium-based catalytic system consisting of IBnF (1,3-bis((pentafluorophenyl)methyl)imidazole-2-ylidene) ligand was found to significantly acc

Catalytic Ring-Opening of Cyclic Alcohols Enabled by PCET Activation of Strong O-H Bonds

We report a new photocatalytic protocol for the redox-neutral isomerization of cyclic alcohols to linear ketones via C-C bond scission. Mechanistic studies demonstrate that key alkoxy radical intermediates in this reaction are generated via the direct homolytic activation of alcohol O-H bonds in an unusual intramolecular PCET process, wherein the electron travels to a proximal radical cation in concert with proton transfer to a weak Br?nsted base. Effective bond strength considerations are shown to accurately forecast the feasibility of alkoxy radical generation with a given oxidant/base pair.

An extremely efficient and green method for the acylation of secondary alcohols, phenols and naphthols with a deep eutectic solvent as the catalyst

The typical deep eutectic solvent [CholineCl][ZnCl2]3, easily prepared from choline chloride and zinc chloride, is green and useful for the acylation of secondary alcohols, phenols, and naphthols with acid anhydrides. Its efficiency allows the acylation of sterically hindered secondary alcohols and acid anhydrides to proceed in high yield under mild condition. The catalyst is cheap, easy to handle, conveniently synthesized in a single step, and recyclable for several times without significant loss of catalytic activity.

How much does the hybridization of a carbon atom affect the transmission of the substituent effect on the chemical shift?

1H and 13C NMR spectra of aryl esters of propionic acid, acrylic acid, and propiolic acid were systematically examined to find out the substituent effect on the chemical shift. The values of the chemical shift of the carbonyl carbon showed an inverse correlation with the Hammett ?3 values, and the magnitude of the slope was the largest with the propiolates. The ?± carbons of acrylates and propiolates also showed an inverse correlation with much smaller values of the slopes than those of the carbonyl carbons; but those of the propionates showed absolutely no correlation. However, the ?2 carbons of acrylates and propiolates showed normal correlation with larger values of the slopes. The signs and the magnitudes of the slopes may be understood by the transmission of the substituent electronic effect through bonds as well as through space. The propiolyloxy group also showed a significantly large effect on the 13C chemical shift values of the benzene ring.

On the synthesis, characterization and reactivity of n-heteroaryl-boryl radicals, a new radical class based on five-membered ring ligands

The synthesis and physical characterization of a new class of N-heterocycle-boryl radicals is presented, based on five membered ring ligands with a N(sp2) complexation site. These pyrazole-boranes and pyrazaboles exhibit a low bond dissociation energy (BDE; B-H) and accordingly excellent hydrogen transfer properties. Most importantly, a high modulation of the BDE(B-H) by the fine tuning of the N-heterocyclic ligand was obtained in this series and could be correlated with the spin density on the boron atom of the corresponding radical. The reactivity of the latter for small molecule chemistry has been studied through the determination of several reaction rate constants corresponding to addition to alkenes and alkynes, addition to O 2, oxidation by iodonium salts and halogen abstraction from alkyl halides. Two selected applications of N-heterocycle-boryl radicals are also proposed herein, for radical polymerization and for radical dehalogenation reactions.

5,5′-Dimethyl-3,3′-azoisoxazole as a new heterogeneous azo reagent for esterification of phenols and selective esterification of benzylic alcohols under Mitsunobu conditions

5,5′-Dimethyl-3,3′-azoisoxazole is used as a new efficient heterogeneous azo reagent for the highly selective esterification of primary and secondary benzylic alcohols and phenols with aliphatic and aromatic carboxylic acids via Mitsunobu protocols. The reaction is highly selective for primary benzylic alcohols versus secondary ones, aliphatic alcohols and also phenols. The isoxazole hydrazine byproduct can be simply isolated by filtration and recycled to its azoisoxazole by oxidation.

A simple and convenient method for preparation of carboxylic acid alkyl esters, phenolic and thioesters using chlorodiphenylphosphine/I2 and imidazole reagent system

Condensation of carboxylic acids with alcohols, phenols and thiols proceeded smoothly to afford carboxylic acid alkyl esters, phenolic esters and thioesters by using the combination of chlorodiphenylphosphine, imidazole and molecular iodine in refluxing acetonitrile. Esterification with this mixed reagent system gave the corresponding products in excellent yields. The phosphorus-containing byproduct was simply removed from the organic phase by basic aqueous workup without the need for chromatography purification.

Easily prepared azopyridines as potent and recyclable reagents for facile esterification reactions. An efficient modified mitsunobu reaction

(Chemical Equation Presented) The 2,2′-, 3,3′-, and 4,4′-azopyridines (azpy) and their alkyl pyridinium ionic liquids were studied as a new class of electron-deficient reagents for Mitsunobu esterification reactions. Among these compounds, 4,4′-azopyridine was found to be the most suitable one for esterification and thioesterification reactions. This new reagent promises to provide general and complementary solutions for separation problems in Mitsunobu reactions without restricting the reaction scope and facilitates the isolation of its hydrazine byproduct. The pyridine hydrazine byproduct can be simply recycled to its azopyridine by an oxidation reaction.