93781-59-0

Basic information

• Product Name: (S)-(-)-1-(4'-hydroxyphenyl)ethanol
• Synonyms: (S)-(-)-1-(4'-hydroxyphenyl)ethanol
• CAS NO: 93781-59-0
• Molecular Weight: 138.166
• Mol File: 93781-59-0.mol
• Article Data: 25

Chemical Properties

• CAS DataBase Reference: (S)-(-)-1-(4'-hydroxyphenyl)ethanol(CAS DataBase Reference)
• NIST Chemistry Reference: (S)-(-)-1-(4'-hydroxyphenyl)ethanol(93781-59-0)
• EPA Substance Registry System: (S)-(-)-1-(4'-hydroxyphenyl)ethanol(93781-59-0)

Safety Data

• Hazardous Substances Data: 93781-59-0(Hazardous Substances Data)

Usage

Description

(S)-(-)-1-(4'-hydroxyphenyl)ethanol, also known as tyrosol, is a natural phenolic compound derived from various plants, including olive oil. It exhibits antioxidant, anti-inflammatory, and antimicrobial properties, which contribute to its potential health benefits and industrial applications.

Uses

Used in Pharmaceutical Applications:
(S)-(-)-1-(4'-hydroxyphenyl)ethanol is used as a therapeutic agent for its antioxidant, anti-inflammatory, and antimicrobial properties, which can contribute to the treatment and prevention of various diseases and conditions.
Used in Cardiovascular Health:
(S)-(-)-1-(4'-hydroxyphenyl)ethanol is used as a cardiovascular health enhancer for its potential to reduce the risk of heart disease by improving lipid metabolism and preventing oxidative damage to the heart.
Used in the Food Industry:
(S)-(-)-1-(4'-hydroxyphenyl)ethanol is used as a preservative and shelf-life extender in the food industry due to its antioxidant properties, which help maintain the freshness and quality of products.
Used in the Cosmetic Industry:
(S)-(-)-1-(4'-hydroxyphenyl)ethanol is used as a stabilizer and antioxidant in the cosmetic industry to enhance the stability and longevity of products, as well as for its potential skin health benefits.
Overall, (S)-(-)-1-(4'-hydroxyphenyl)ethanol, or tyrosol, is a versatile compound with numerous potential health benefits and applications across various industries, making it a valuable compound for further research and development.

Upstream product

• 84775-31-5 1-(4-((2-methoxyethoxy)methoxy)phenyl)ethanone 
• 108-05-4 vinyl acetate 
• 93453-79-3 1-(4-hydroxyphenyl)ethanol 
• 99-93-4 4-Hydroxyacetophenone 
• 123-07-9 4-Ethylphenol 
• 7400-08-0 p-Coumaric Acid 
• 113-24-6 sodium pyruvate 
• 108-95-2 phenol 
• 2628-17-3 4-Vinylphenol 

Relevant articles and documents

Amino Acid-Functionalized Metal-Organic Frameworks for Asymmetric Base–Metal Catalysis

We report a strategy to develop heterogeneous single-site enantioselective catalysts based on naturally occurring amino acids and earth-abundant metals for eco-friendly asymmetric catalysis. The grafting of amino acids within the pores of a metal-organic framework (MOF), followed by post-synthetic metalation with iron precursor, affords highly active and enantioselective (>99 % ee for 10 examples) catalysts for hydrosilylation and hydroboration of carbonyl compounds. Impressively, the MOF-Fe catalyst displayed high turnover numbers of up to 10 000 and was recycled and reused more than 15 times without diminishing the enantioselectivity. MOF-Fe displayed much higher activity and enantioselectivity than its homogeneous control catalyst, likely due to the formation of robust single-site catalyst in the MOF through site-isolation.

An Enantioconvergent Benzylic Hydroxylation Using a Chiral Aryl Iodide in a Dual Activation Mode

The application of a triazole-substituted chiral iodoarene in a direct enantioselective hydroxylation of alkyl arenes is reported. This method allows the rapid synthesis of chiral benzyl alcohols in high yields and stereocontrol, despite its nontemplated nature. In a cascade activation consisting of an initial irradiation-induced radical C-H-bromination and a consecutive enantioconvergent hydroxylation, the iodoarene catalyst has a dual role. It initiates the radical bromination in its oxidized state through an in-situ-formed bromoiodane and in the second, Cu-catalyzed step, it acts as a chiral ligand. This work demonstrates the ability of a chiral aryl iodide catalyst acting both as an oxidant and as a chiral ligand in a highly enantioselective C-H-activating transformation. Furthermore, this concept presents an enantioconvergent hydroxylation with high selectivity using a synthetic catalyst.

Multienzyme One-Pot Cascade for the Stereoselective Hydroxyethyl Functionalization of Substituted Phenols

The operability and substrate scope of a redesigned vinylphenol hydratase as a single biocatalyst or as part of multienzyme cascades using either substituted coumaric acids or phenols as stable, cheap, and readily available substrates are reported.