121562-78-5 | (3-(Methylamino)phenyl)methanol

Packsize	Purity	Availability	Price	Discounted Price
100mg	96%	in stock	$203.00	$142.00
250mg	96%	in stock	$323.00	$226.00
1g	96%	in stock	$674.00	$472.00
5g	96%	in stock	$1,996.00	$1,397.00

Description

• Catalog Number: AI14062
• Chemical Name: (3-(Methylamino)phenyl)methanol
• CAS Number: 121562-78-5
• Molecular Formula: C8H11NO
• Molecular Weight: 137.179
• MDL Number: MFCD16658585
• SMILES: OCc1cccc(c1)NC

Upstream Synthesis Route

(3-(Methylamino)phenyl)methanol, also known as MAPM, is a versatile compound that finds widespread applications in chemical synthesis. This compound plays a crucial role as a building block in the preparation of various pharmaceuticals, agrochemicals, and fine chemicals. The presence of both an amino group and a hydroxyl group in MAPM allows for a diverse range of chemical reactions and functional group transformations.One key application of (3-(Methylamino)phenyl)methanol in chemical synthesis is its utility as a chiral auxiliary. By leveraging the chiral nature of MAPM, chemists can selectively induce asymmetric induction in reactions, leading to the formation of enantiomerically pure compounds. This property is particularly valuable in the synthesis of chiral pharmaceuticals where the stereochemistry of the molecule greatly influences its biological activity.Another important use of MAPM is in the synthesis of complex heterocyclic compounds. The amino and hydroxyl groups on the phenyl ring can participate in various cyclization reactions, facilitating the formation of structurally diverse and intricate ring systems. This capability is vital in the development of new drug candidates and functional materials.Furthermore, (3-(Methylamino)phenyl)methanol serves as a valuable intermediate in the synthesis of dyes, pigments, and specialty chemicals. Its ability to undergo various transformation reactions, such as oxidation, reduction, and substitution, makes it a versatile precursor for the production of a wide array of organic compounds.Overall, the application of MAPM in chemical synthesis extends across multiple domains, ranging from pharmaceuticals to materials science, highlighting its significance as a foundational building block in the creation of novel molecules with diverse properties and functionalities.