High Purity 3,5-Dibromo-4-hydroxybenzaldehyde (CAS 2973-77-5): Synthesis, Properties, and Applications
Discover the essential properties and diverse applications of this key fine chemical intermediate for your advanced synthesis needs.
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Dibromo-hydroxybenzaldehyde
Dibromo-hydroxybenzaldehyde is a high-purity fine chemical compound widely utilized as a crucial building block in various organic synthesis pathways. Its unique structure and reactive functional groups make it invaluable for developing complex molecules, particularly within the cosmetics and pharmaceutical industries.
- Dibromo-hydroxybenzaldehyde properties include a melting point of 184°C and a boiling point of 273.3°C, indicating its thermal stability for synthesis.
- Explore the CAS 2973-77-5 applications in advanced organic synthesis, serving as a key intermediate for novel compound development.
- This high purity benzaldehyde derivative offers reliable performance for demanding chemical processes.
- As a vital component in fine chemical intermediates for cosmetics, it contributes to advanced formulation ingredients.
Advantages You'll Gain
Versatile Synthetic Building Block
Leverage this compound's structure for versatile organic synthesis, enabling the creation of diverse pharmaceutical material precursors.
Reliable Purity Standards
Benefit from the guaranteed 98% purity, ensuring consistent and predictable results in your chemical reactions and product formulations.
Broad Industry Applicability
Utilize its proven efficacy in both cosmetics and medicine, highlighting its importance as a fine chemical intermediate.
Key Applications
Cosmetics Formulation
Dibromo-hydroxybenzaldehyde is a critical component in the synthesis of specialized ingredients used in advanced cosmetic products.
Pharmaceutical Intermediates
Serve as a vital precursor for the synthesis of active pharmaceutical ingredients (APIs) and complex drug molecules.
Advanced Organic Synthesis
Facilitate complex chemical transformations due to its specific structural features and reactivity.
Research and Development
Explore new chemical entities and pathways by incorporating this versatile dibrominated aromatic compound into your R&D projects.