10229-10-4 | Pent-3-yn-1-ol

Packsize	Purity	Availability	Price	Discounted Price
1g	98%	in stock	$36.00	$25.00
5g	98%	in stock	$121.00	$85.00
10g	98%	in stock	$219.00	$153.00
25g	98%	in stock	$473.00	$331.00

Description

• Catalog Number: AA09037
• Chemical Name: Pent-3-yn-1-ol
• CAS Number: 10229-10-4
• Molecular Formula: C5H8O
• Molecular Weight: 84.1164
• MDL Number: MFCD00002956
• SMILES: CC#CCCO

Upstream Synthesis Route

As a professional chemist, I can provide an in-depth insight into the application of Pent-3-yn-1-ol in chemical synthesis. Pent-3-yn-1-ol, also known as 3-pentyne-1-ol, is a versatile organic compound widely used in various chemical reactions and synthetic processes. Its unique structure, characterized by the presence of an alkyne functional group, makes it a valuable building block in organic synthesis.1. Alkyne Functional Group: The alkyne group in Pent-3-yn-1-ol imparts distinctive reactivity, allowing it to participate in a wide range of reactions such as addition, substitution, and elimination reactions. This reactivity is particularly useful in forming carbon-carbon bonds, essential in the synthesis of complex organic molecules.2. Chain Extension: Pent-3-yn-1-ol can be utilized to extend carbon chains in organic molecules through reactions like Sonogashira coupling, where it serves as a precursor to longer alkynes. This property is crucial in the construction of various organic frameworks with specific structural requirements.3. Functional Group Interconversions: The hydroxyl group in Pent-3-yn-1-ol can easily undergo chemical transformations to introduce other functional groups, enabling the synthesis of diverse organic compounds. For example, it can be converted to aldehydes, ketones, or carboxylic acids, expanding its synthetic utility.4. Ligand Synthesis: Pent-3-yn-1-ol can also serve as a ligand in coordination chemistry, forming complexes with metal ions to facilitate catalytic reactions or act as intermediates in organic transformations. Its alkyne moiety can provide unique binding modes in organometallic chemistry for the development of new catalyst systems.5. Biological Applications: In medicinal chemistry, Pent-3-yn-1-ol derivatives have shown potential as pharmacophores in drug design due to their reactivity and ability to interact with biological targets. Furthermore, their structural diversity can be harnessed to create novel bioactive compounds with enhanced pharmacological properties.Overall, Pent-3-yn-1-ol plays a crucial role in chemical synthesis as a versatile intermediate with diverse applications in organic chemistry, material science, and pharmaceutical research. Its reactivity, functional group manipulations, and structural diversity make it an indispensable tool for the creation of complex organic molecules and the development of innovative chemical processes.