2,3,4-Trihydroxybenzaldehyde, identified by CAS number 2144-08-3, is a fascinating organic compound with a unique arrangement of functional groups that dictates its reactivity and applications. Understanding its chemical properties and synthesis pathways is crucial for researchers and industrial chemists aiming to utilize it effectively. As a leading supplier, we offer insights into this important intermediate.

Understanding the Structure and Properties

At its core, 2,3,4-Trihydroxybenzaldehyde is a benzaldehyde derivative featuring three hydroxyl (-OH) groups at the ortho, meta, and para positions relative to the aldehyde (-CHO) group. This structure imbues it with several key properties:

  • Phenolic Nature: The hydroxyl groups confer acidic and antioxidant properties. They can participate in hydrogen bonding, influencing solubility and reactivity.
  • Reactivity of the Aldehyde Group: The aldehyde function is susceptible to oxidation, reduction, and nucleophilic addition reactions, making it a versatile site for further chemical modifications.
  • Sensitivity: The compound is noted to be air-sensitive, suggesting it may undergo oxidation upon prolonged exposure to atmospheric oxygen. This necessitates careful handling and storage, typically in dark, sealed containers.
  • Physical Appearance: It is commonly described as a light brown to beige-brown crystalline powder.
  • Solubility: It shows solubility in polar organic solvents like DMSO and methanol, with moderate solubility in water.

Synthesis Pathways: From Pyrogallol to Product

The industrial synthesis of 2,3,4-Trihydroxybenzaldehyde typically starts with pyrogallol (1,2,3-trihydroxybenzene). A common and effective method involves a three-step process:

  1. Phenolic Hydroxyl Protection: The two adjacent hydroxyl groups on pyrogallol are protected to form a cyclic intermediate, such as 4-hydroxybenzo[d][1,3]dioxol-2-one. This step is critical for directing the subsequent formylation reaction to the correct position on the aromatic ring.
  2. Formylation: The protected pyrogallol derivative undergoes formylation, introducing the aldehyde group at the desired position, yielding a formylated intermediate like 7-hydroxy-2-oxobenzo[d][1,3]dioxole-4-carbaldehyde.
  3. Deprotection: Finally, the protecting groups are removed to reveal the free hydroxyl groups, yielding the target compound, 2,3,4-Trihydroxybenzaldehyde.

This carefully controlled synthesis ensures regioselectivity and high purity. Manufacturers focused on producing this chemical consistently employ optimized versions of these steps. As a reliable chemical manufacturer, we adhere to strict quality control throughout this production process.

Seeking a Manufacturer?

For those looking to buy 2,3,4-Trihydroxybenzaldehyde, understanding these chemical aspects helps in appreciating the quality offered by reputable suppliers. Our manufacturing process is geared towards delivering this high-purity intermediate, ensuring it meets the demanding requirements of pharmaceutical synthesis and other advanced chemical applications. Contact us to explore purchasing options and secure a reliable source from China.