Levulinic Acid Calcium Salt Dihydrate: Your Organic Synthesis Catalyst
Explore the versatile applications of this white to off-white solid, an efficient catalyst for oxidation reactions.
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Levulinic Acid Calcium Salt Dihydrate
This compound is recognized for its critical role as a catalyst in organic synthesis, particularly excelling in oxidation reactions. Its chemical stability and water solubility make it a preferred choice for various synthetic pathways.
- Discover the effectiveness of calcium levulinate dihydrate in facilitating oxidation reactions for your synthesis needs.
- Benefit from its white to off-white solid appearance, ensuring purity and ease of handling in your laboratory.
- Leverage its water soluble organic compound nature for streamlined reaction setups and workups.
- Understand the importance of storing this pharmaceutical grade calcium levulinate in clean, dry, and cool conditions to maintain its efficacy.
Key Advantages
Catalytic Efficiency
As a potent catalyst for organic synthesis, especially in oxidation reactions, it enhances reaction yields and reduces processing time, a key benefit for efficient chemical production.
Purity and Form
The distinct white to off-white solid appearance of this chemical ensures high purity, making it suitable for demanding applications and providing confidence in its performance for various pharmaceutical grade calcium levulinate requirements.
Versatile Solubility
Its excellent water solubility makes it an ideal component for aqueous-based reaction systems and simplifies purification processes, a critical factor when working with water soluble organic compound formulations.
Key Applications
Organic Synthesis
Utilize this compound as a reliable catalyst for intricate organic synthesis, particularly in driving forward crucial oxidation reactions.
Pharmaceutical Development
The purity and properties of calcium levulinate dihydrate make it valuable in pharmaceutical research and development, potentially serving as an intermediate or catalyst in drug synthesis.
Chemical Catalysis
Explore its potential as a specialized catalyst in various chemical processes, leveraging its specific reactivity and stability.
Research Laboratories
A fundamental compound for researchers investigating new synthetic routes or catalytic mechanisms involving ketocarboxylic acid salts.