1005143-73-6 | 5-(Azidomethyl)quinolin-8-ol

Packsize	Purity	Availability	Price	Discounted Price
500mg	95%	2 weeks	$747.00	$523.00
1g	95%	2 weeks	$826.00	$578.00
5g	95%	2 weeks	$1,620.00	$1,134.00
10g	95%	2 weeks	$2,215.00	$1,550.00

Description

• Catalog Number: AI04936
• Chemical Name: 5-(Azidomethyl)quinolin-8-ol
• CAS Number: 1005143-73-6
• Molecular Formula: C10H8N4O
• Molecular Weight: 200.19671999999997
• MDL Number: MFCD09759044
• SMILES: [N-]=[N+]=NCc1ccc(c2c1cccn2)O

Upstream Synthesis Route

The compound 5-(Azidomethyl)quinolin-8-ol plays a crucial role in chemical synthesis as a versatile building block. With its unique structure combining a quinoline ring system with an azide functional group, this compound offers a diverse range of applications in synthetic chemistry. One prominent use of 5-(Azidomethyl)quinolin-8-ol is as a precursor for the synthesis of various bioactive molecules and pharmaceutical intermediates. The azide group can participate in click chemistry reactions, enabling the facile attachment of other functional groups or moieties to the quinoline ring. This capability makes it a valuable tool for the construction of complex organic compounds with high efficiency.Additionally, the quinoline moiety in this compound confers specific physicochemical properties that are advantageous in drug discovery and development. Quinoline derivatives have been investigated for their potential pharmacological activities, including antimicrobial, antiviral, and anticancer properties. By incorporating the 5-(Azidomethyl)quinolin-8-ol into molecular structures, researchers can explore novel chemical entities with enhanced biological functions.Furthermore, the presence of the azide group provides a handle for further functionalization through various synthetic transformations. Chemists can derivatize the azide functionality to introduce diverse chemical functionalities or to modify the compound's properties as needed for specific applications. This flexibility allows for customization and optimization of molecular structures for targeted purposes in medicinal chemistry, materials science, and other fields requiring the precise design of molecules with desired properties.