Discover the Versatility of 3,5-Di-tert-butyl-2-hydroxybenzaldehyde
An advanced organic intermediate offering unique properties for synthesis and material innovation.
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3,5-Di-tert-butyl-2-hydroxybenzaldehyde
This organic intermediate is characterized by its significant steric hindrance, a result of two bulky tert-butyl groups attached to the phenolic ring. This structural feature restricts molecular interactions, influencing the geometry and stability of resulting metal complexes. It also exhibits notable antibacterial activity, making it a valuable component in applications requiring antimicrobial properties. Its purity of 99% ensures reliable performance in demanding chemical syntheses.
- This organic intermediate is a key precursor in the preparation of nickel complexes, showcasing its utility in catalysis and materials science.
- Leveraging its antibacterial activity, this compound finds use in developing antimicrobial coatings and additives for various products.
- The molecule's steric hindrance is a crucial factor in its coordination chemistry, affecting the properties of metal complexes formed with it.
- As a chiral building block, it plays a significant role in the synthesis of chiral catalysts and ligands essential for asymmetric catalysis.
Key Advantages
Enhanced Catalytic Performance
Its role as a chiral building block for the synthesis of chiral catalysts and ligands is vital for advancing asymmetric catalysis, a critical field in producing enantiomerically pure compounds.
Broad Industrial Applications
The compound is utilized in chemical research and organic synthesis as a precursor for complex organic molecules and pharmaceutical intermediates, underscoring its versatility.
Antimicrobial Formulations
The inherent antibacterial properties make 3,5-Di-tert-butyl-2-hydroxybenzaldehyde useful in formulating antimicrobial coatings, additives, or treatments for diverse applications, including paints and coatings.
Key Applications
Coordination Chemistry
3,5-Di-tert-butyl-2-hydroxybenzaldehyde acts as a ligand in coordination complexes with different metal ions. These metal complexes are valuable as catalysts in organic transformations and materials synthesis, a direct benefit of its unique structure.
Chiral Building Block
Its chiral nature makes it a valuable building block for the synthesis of chiral catalysts and ligands. These compounds play a crucial role in asymmetric catalysis, essential for the production of enantiomerically pure compounds, thereby aiding in precise chemical synthesis.
Antibacterial Agents
The compound's antibacterial activity makes it useful in formulating antimicrobial coatings, additives, or treatments. This application is critical for various sectors needing enhanced hygiene and preservation, such as medical devices and protective coatings.
Organic Synthesis
The compound is utilized in chemical research and organic synthesis as a precursor for the preparation of complex organic molecules and pharmaceutical intermediates. This role highlights its importance in drug discovery and the creation of novel chemical entities.