Methyl 6-Formylnicotinate: A Vital Intermediate in Fine Chemical Synthesis
Exploring the synthesis, properties, and applications of CAS 10165-86-3 for your research needs.
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Methyl 6-Formylnicotinate
Methyl 6-Formylnicotinate (CAS 10165-86-3) is an essential compound widely recognized as a versatile building block in the realm of fine chemical and pharmaceutical intermediate synthesis. Its unique structure makes it a valuable starting material for creating complex organic molecules, contributing significantly to advancements in drug discovery and material science.
- Methyl 6-Formylnicotinate synthesis involves careful control of reaction conditions, ensuring high yields and purity for critical applications.
- CAS 10165-86-3 properties include its solid form and characteristic yellow color, indicating its specific chemical nature.
- This compound serves as a crucial component in pharmaceutical intermediates, enabling the development of novel therapeutic agents.
- As one of the key fine chemical building blocks, it supports diverse organic synthesis pathways for various industries.
Key Advantages
Versatile Synthesis Applications
Leveraging organic synthesis reagents like Methyl 6-Formylnicotinate allows for the precise construction of target molecules, streamlining complex chemical processes.
Reliable Pharmaceutical Intermediates
The consistent quality of this compound as a pharmaceutical intermediate is vital for drug development, ensuring the efficacy and safety of final medicinal products.
Essential Pyridine Derivative
As a significant pyridine derivative, it offers unique reactivity and structural features essential for a wide range of chemical transformations.
Key Applications
Pharmaceutical Research
Utilized extensively in the development of new drug candidates, contributing to the pharmaceutical intermediates sector.
Organic Synthesis
A key component in various organic synthesis routes, facilitating the creation of novel compounds and materials.
Fine Chemical Manufacturing
Serves as a valuable precursor in the production of specialized chemicals, underscoring its role in fine chemical building blocks.
Material Science
Its unique chemical structure makes it applicable in the development of advanced materials requiring specific functional properties.