Pyridine N-oxide: A Key Intermediate in Fine Chemical Synthesis
Explore the synthesis, properties, and diverse applications of Pyridine N-oxide (CAS 694-59-7) in the chemical industry.
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Pyridine N-oxide
Pyridine N-oxide, identified by CAS 694-59-7, is a vital heterocyclic compound recognized for its utility as an oxidizing reagent and a crucial intermediate in various organic synthesis pathways. Its unique structure and reactivity make it indispensable in the development of pharmaceuticals and other fine chemicals.
- Investigating pyridine n-oxide synthesis methods reveals its preparation through the oxidation of pyridine using peroxy acids, a critical step for obtaining high-purity product.
- Understanding pyridine n-oxide applications shows its role as a precursor for many complex organic molecules, including pharmaceuticals.
- The chemical properties of CAS 694-59-7, such as its melting point between 62-66°C and boiling point of 270°C, are essential for its handling and use in controlled reaction environments.
- As a key pyridine n-oxide pharmaceutical intermediate, it facilitates the creation of numerous drug candidates.
Advantages of Pyridine N-oxide
Versatile Chemical Reactivity
Pyridine N-oxide's chemical structure allows for a range of reactions, making it a versatile building block in complex organic synthesis, supporting various pyridine n-oxide applications.
Key Role in Drug Discovery
Its function as a pyridine n-oxide pharmaceutical intermediate is paramount, enabling the efficient synthesis of active pharmaceutical ingredients (APIs) and advanced drug molecules.
Facilitates Specific Substitutions
The N-oxide group directs electrophilic substitutions to the 2- and 4-positions of the pyridine ring, simplifying complex pyridine functionalization and aiding in pyridine n-oxide synthesis.
Key Applications
Pharmaceutical Synthesis
Utilized as a crucial pyridine n-oxide pharmaceutical intermediate, contributing to the development of novel therapeutic agents.
Organic Synthesis Reagent
Serves as an effective oxidizing reagent and a versatile building block in various organic synthesis pathways, supporting the exploration of new chemical entities.
Heterocyclic Chemistry
Essential in heterocyclic compound synthesis, enabling the creation of complex ring systems with diverse functional groups.
Research and Development
A fundamental chemical for academic and industrial research, furthering advancements in chemical science and material development.