27739-28-2

Basic information

• Product Name: isobutyl p-anisate
• Synonyms: isobutyl p-anisate;p-Methoxybenzoic acid isobutyl ester;Einecs 248-632-8;Benzoic acid, 4-Methoxy-, 2-Methylpropyl ester
• CAS NO: 27739-28-2
• Molecular Formula: C₁₂H₁₆O₃
• Molecular Weight: 208.25364
• EINECS: 248-632-8
• Mol File: 27739-28-2.mol
• Article Data: 10

Chemical Properties

• Boiling Point: 293.8°Cat760mmHg
• Flash Point: 118.9°C
• Appearance: /
• Density: 1.034g/cm³
• Vapor Pressure: 0.00169mmHg at 25°C
• Refractive Index: 1.493
• CAS DataBase Reference: isobutyl p-anisate(CAS DataBase Reference)
• NIST Chemistry Reference: isobutyl p-anisate(27739-28-2)
• EPA Substance Registry System: isobutyl p-anisate(27739-28-2)

Safety Data

• Hazardous Substances Data: 27739-28-2(Hazardous Substances Data)

Usage

Description

Isobutyl p-anisate is a chemical compound that belongs to the class of esters, derived from the reaction between isobutanol and p-anisic acid. It is known for its sweet, floral, and fruity aroma, making it a popular choice in the fragrance industry.
Used in Fragrance Industry:
Isobutyl p-anisate is used as a fragrance and flavoring agent for its sweet, floral, and fruity aroma in various products such as perfumes, cosmetics, and food items.
Used in Pharmaceutical Industry:
Isobutyl p-anisate is used as a flavoring agent for oral medications to improve their taste and make them more palatable for consumers.
Used in Consumer Products:
Isobutyl p-anisate is considered relatively safe for use in consumer products and is approved for use in various applications by regulatory agencies.

InChI:InChI=1/C12H16O3/c1-9(2)8-15-12(13)10-4-6-11(14-3)7-5-10/h4-7,9H,8H2,1-3H3

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Relevant articles and documents

Mechanistic insight into the synergistic Cu/Pd-catalyzed carbonylation of aryl iodides using alcohols and dioxygen as the carbonyl source

Pd-catalyzed carbonylation, as an efficient synthetic approach to the installation of carbonyl groups in organic compounds, has been one of the most important research fields in the past decade. Although elegant reactions that allow highly selective carbonylations have been developed, straightforward routes with improved reaction activity and broader substrate scope remain long-term challenges for new practical applications. Here, we show a new type of synergistic Cu/Pd-catalyzed carbonylation reaction using alcohols and dioxgen as the carbonyl sources. A broad range of aryl iodides and alcohols are compatible with this protocol. The reaction is concise and practical due to the ready availability of the starting materials and the scalability of the reaction. In addition, the reaction affords lactones and lactams in an intermolecular fashion. Moreover, DFT calculations have been performed to study the detailed mechanisms. [Figure not available: see fulltext.]

Electro-Oxidative Selective Esterification of Methylarenes and Benzaldehydes

A mild and green electro-oxidative protocol to construct aromatic esters from methylarenes and alcohols is herein reported. Importantly, the reaction is free of metals, chemical oxidants, bases, acids, and operates at room temperature. Moreover, the design of the electrolyte was found critical for the oxidation state and structure of the coupling products, a rarely documented effect. This electro-oxidative coupling process also displays exceptional tolerance of many fragile easily oxidized functional groups such as hydroxy, aldehyde, olefin, alkyne, as well as neighboring benzylic positions. The enantiomeric enrichment of some chiral alcohols is moreover preserved during this electro-oxidative coupling reaction, making it overall a promising synthetic tool.

Intermolecular Hydropyridylation of Unactivated Alkenes

A general method for the hydropyridylation of unactivated alkenes is described. The transformation connects metal-mediated hydrogen atom transfer to alkenes and Minisci addition reactions. The reaction proceeds under mild conditions with high site-selectivities and allows for the construction of tertiary and quaternary centers from simple alkene starting materials.