110-69-0 | Butyraldehyde oxime

Packsize	Purity	Availability	Price	Discounted Price
1g	98%	1 week	$163.00	$114.00
10g	98%	1 week	$209.00	$147.00

Description

• Catalog Number: AB71681
• Chemical Name: Butyraldehyde oxime
• CAS Number: 110-69-0
• Molecular Formula: C4H9NO
• Molecular Weight: 87.1204
• MDL Number: MFCD00013943
• SMILES: CCCC=NO

Upstream Synthesis Route

Butanal oxime, also known as butan-1-oxime or butyraldoxime, is a valuable compound widely utilized in chemical synthesis processes. As a versatile building block, butanal oxime plays a crucial role in various organic reactions, particularly in the formation of oxime derivatives and other nitrogen-containing compounds.One of the primary applications of butanal oxime in chemical synthesis is its use as a precursor in the synthesis of amides, which are fundamental functional groups in a wide range of organic compounds. By undergoing a condensation reaction with carboxylic acids, butanal oxime can be transformed into the corresponding amide, offering a straightforward and efficient route to introduce nitrogen functionalities into organic molecules.Moreover, butanal oxime can also serve as a valuable starting material for the preparation of N-hydroxylamines, which are important intermediates in the synthesis of various nitrogen-containing compounds, such as heterocycles, pharmaceuticals, and agrochemicals. Through selective functional group transformations, butanal oxime can be converted into diverse N-hydroxylamine derivatives with unique reactivity profiles, enabling the synthesis of complex organic molecules with specific structural features.In addition to its role in amide and N-hydroxylamine synthesis, butanal oxime can participate in other reactions, such as Beckmann rearrangement, leading to the formation of oximes and amides, and various transformations involving nitrogen-containing functional groups. Its versatility and compatibility with different synthetic methods make butanal oxime a valuable tool for organic chemists seeking to access novel nitrogen-containing compounds and complex molecular architectures.