Barbituric Acid

Other Trading Names:

  • Malonylurea
  • 2,4,6-Trioxohexahydropyrimidine
  • Malonylurea
  • Malonyluree

CAS Number: 67-52-7

HS Code:  293399

Types of Packaging:

  • 5 Kg/ Aluminum Foil Bag
  • 25 Kg/ Woven Bag
  • 250 Kg/ Fiber Drum
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Availability: In stock
Barbituric Acid

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Chemical Property


Chemical Formula



White crystalline powder

Boiling Point

Decomposes above 300 °C


Approximately 1.42 g/cm³


Slightly soluble in water; soluble in alkaline solutions



Molecular Weight

Approximately 128.09 g/mol

Chemical Description

  • Barbituric Acid, also known as Malonylurea or 2,4,6-Trioxohexahydropyrimidine, is a versatile organic compound with a wide range of applications in pharmaceuticals, chemicals, and materials science. Its molecular structure consists of a pyrimidine ring with two oxo groups and one amino group, conferring unique chemical properties conducive to various industrial processes.
  • Beyond its traditional role as a precursor in the synthesis of barbiturates, Barbituric Acid serves as a building block for the production of specialty pharmaceuticals with sedative, hypnotic, and anticonvulsant properties. Its ability to modulate central nervous system activity makes it invaluable in the treatment of neurological disorders and psychiatric conditions.
  • In the chemical industry, Barbituric Acid finds application as a versatile intermediate in the synthesis of dyes, pigments, and specialty chemicals. Its conjugated system and electron-withdrawing substituents make it an ideal candidate for organic transformations, enabling the creation of diverse molecular structures with tailored properties.
  • Barbituric Acid's solubility in hot water, ethanol, and ether enhances its utility in chemical reactions and formulations, ensuring efficient processing and product development. Its compatibility with a wide range of solvents facilitates its incorporation into various industrial processes, from pharmaceutical manufacturing to textile dyeing.
  • Its involvement in research laboratories as a reagent and catalyst underscores its importance in advancing organic synthesis methodologies and catalytic processes. Barbituric Acid's role in facilitating chemical transformations and promoting reaction efficiency contributes to the development of new compounds and materials with enhanced properties.
  • With its high purity and stability, Barbituric Acid maintains its integrity throughout industrial processes, ensuring consistent and reliable outcomes. Its wide-ranging applications and adaptability make it a preferred choice for chemical manufacturing and synthesis, supporting innovation and technological advancement.
  • Barbituric Acid's pivotal role in pharmaceuticals, chemicals, and materials science reflects its significance as a versatile organic compound with diverse applications. Its contribution to drug discovery, materials development, and chemical synthesis underscores its importance in driving progress and innovation across multiple industries.
  • Overall, Barbituric Acid's broad spectrum of applications underscores its significance as a versatile chemical compound with far-reaching implications for industrial chemistry, pharmaceuticals, and materials science. Its role in promoting scientific discovery and technological innovation highlights its potential to address emerging challenges and drive sustainable development in a rapidly evolving world.
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Barbituric Acid