Isopropyl 2-(3-Nitrobenzylidene)acetoacetate: A Key Pharmaceutical Intermediate
Explore the synthesis, properties, and critical applications of this vital organic compound in drug development.
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Isopropyl 2-(3-Nitrobenzylidene)acetoacetate
This compound serves as a crucial building block in the synthesis of various complex organic molecules, most notably as a key intermediate in the production of Nilvadipine, a medication used to treat hypertension and angina.
- Discover the synthesis pathways for Isopropyl 2-(3-Nitrobenzylidene)acetoacetate, enabling efficient production of vital pharmaceuticals.
- Understand the detailed specifications, including assay and impurity profiles, ensuring high quality for your pharmaceutical intermediate isopropyl acetoacetate requirements.
- Learn about the role of 3-Nitrobenzaldehyde derivatives in advanced organic synthesis and their impact on drug discovery.
- Explore the applications of this versatile compound beyond Nilvadipine synthesis, contributing to various chemical synthesis projects.
Key Advantages
High Purity and Quality
With an assay of ≥98.0%, this compound meets stringent industry standards, making it ideal for demanding pharmaceutical applications. Trust in consistent quality for your pharmaceutical intermediate isopropyl acetoacetate needs.
Critical Role in Nilvadipine Synthesis
As a primary intermediate for Nilvadipine, this compound is essential for the production of cardiovascular medications, contributing to global health solutions and providing critical cardiovascular drug precursors.
Versatile Chemical Building Block
Beyond its primary use, the unique structure of Isopropyl 2-(3-Nitrobenzylidene)acetoacetate makes it a valuable reagent in various chemical synthesis endeavors and for those seeking organic synthesis building blocks.
Key Applications
Pharmaceutical Synthesis
The compound is a critical intermediate in the synthesis of pharmaceuticals, including the widely used cardiovascular drug Nilvadipine, supporting the demand for dihydropyridine synthesis intermediates.
Organic Chemistry Research
Its reactive functional groups make it a valuable tool for researchers exploring new synthetic routes and developing novel compounds, furthering advancements in fine chemical intermediates for APIs.
Material Science Development
Potential applications in material science are being explored due to its specific chemical structure, contributing to innovation in areas requiring specialized organic molecules.
Custom Synthesis Projects
This compound is often sought after for custom synthesis projects, highlighting its importance in bespoke chemical manufacturing and pharmaceutical intermediate sourcing.