927-55-9 | 4-Aminopentan-1-ol

Packsize	Purity	Availability	Price	Discounted Price
100mg	96%	in stock	$201.00	$141.00
250mg	96%	in stock	$289.00	$203.00
1g	96%	in stock	$774.00	$542.00
5g	96%	in stock	$2,204.00	$1,543.00

Description

• Catalog Number: AC81211
• Chemical Name: 4-Aminopentan-1-ol
• CAS Number: 927-55-9
• Molecular Formula: C5H13NO
• Molecular Weight: 103.1628
• MDL Number: MFCD16251198
• SMILES: OCCCC(N)C

Upstream Synthesis Route

4-Amino-1-pentanol, also known as γ-Aminopentanol, is a versatile chemical compound commonly used in various chemical synthesis processes. Its primary application lies in its role as a building block in the synthesis of pharmaceuticals, agrochemicals, and specialty chemicals. With its unique structure and reactivity, 4-Amino-1-pentanol serves as a crucial intermediate in the production of numerous important compounds.One key application of 4-Amino-1-pentanol is in the synthesis of amino alcohols, which are essential components in the development of pharmaceutical drugs and bioactive molecules. By incorporating 4-Amino-1-pentanol into the chemical reaction pathway, chemists can introduce specific functional groups and stereochemistry required for targeting biological pathways or enhancing therapeutic effects.Additionally, 4-Amino-1-pentanol plays a significant role in the production of surfactants, polymers, and chiral ligands used in catalytic processes. Its presence enables the modification of molecular structures to improve solubility, stability, or selectivity in various industrial applications. By utilizing 4-Amino-1-pentanol as a starting material, chemists can access a wide range of compounds with tailored properties to meet specific industry needs.In summary, the application of 4-Amino-1-pentanol in chemical synthesis is instrumental in creating diverse compounds with distinct functionalities for pharmaceuticals, agrochemicals, and specialty chemicals. Its versatility and reactivity make it a valuable asset in the toolkit of synthetic chemists seeking to design and develop novel molecules for various applications.