Organic synthesis is the backbone of innovation in pharmaceuticals, agrochemicals, and materials science. At the heart of this discipline lies the careful selection and manipulation of chemical intermediates. Among these, furan derivatives, particularly those with multiple functional groups, offer a rich platform for chemical transformations. 5-Formyl-2-furoic Acid (CAS 13529-17-4) stands out as a prime example of such a versatile building block, prized by researchers and chemists for its inherent reactivity.

The molecular structure of 5-Formyl-2-furoic Acid, featuring a furan ring substituted with an aldehyde group at the 5-position and a carboxylic acid group at the 2-position, endows it with a unique chemical profile. The furan ring itself is an electron-rich aromatic system, susceptible to electrophilic substitution, though less so than benzene. However, the true utility of this compound lies in the reactivity of its substituents.

Aldehyde Reactivity: The formyl group (-CHO) is highly reactive. It readily participates in nucleophilic addition reactions. Common transformations include:

  • Oxidation: Can be oxidized to a carboxylic acid group, yielding furan-2,5-dicarboxylic acid.
  • Reduction: Can be reduced to a hydroxymethyl group (-CH2OH), forming 5-(hydroxymethyl)furan-2-carboxylic acid.
  • Condensation Reactions: Reacts with amines to form imines (Schiff bases), with hydrazines to form hydrazones, and with hydroxylamines to form oximes. These derivatives can be further manipulated or used as intermediates themselves.
  • Wittig Reaction: Allows for the formation of carbon-carbon double bonds by reacting with phosphonium ylides.

Carboxylic Acid Reactivity: The carboxylic acid group (-COOH) offers another avenue for functionalization:

  • Esterification: Reacts with alcohols in the presence of an acid catalyst to form esters.
  • Amidation: Reacts with amines (often via activated derivatives like acid chlorides) to form amides.
  • Salt Formation: Reacts with bases to form carboxylate salts.
  • Decarboxylation: Under certain conditions, carboxylic acids can undergo decarboxylation.

For chemists looking to buy 5-Formyl-2-furoic Acid, understanding these reactivity patterns is crucial for designing efficient synthesis routes. As a supplier, NINGBO INNO PHARMCHEM CO.,LTD. ensures that our 5-Formyl-2-furoic Acid is produced with high purity (≥98%) to maximize the success of these transformations. This reliability is essential for research scientists and manufacturers alike. By offering this key intermediate, we support innovation in various chemical fields, from pharmaceutical development to the creation of novel materials.

The ability to selectively react either the aldehyde or the carboxylic acid group, or to utilize both in tandem, makes 5-Formyl-2-furoic Acid an exceptionally valuable tool in the synthetic chemist's arsenal. Its predictable reactivity, coupled with its availability from reliable sources, solidifies its position as a go-to intermediate for complex molecular construction.