2-Pyridylamidoxime: A Versatile Intermediate in Pharmaceutical Synthesis
Explore the properties, applications, and synthesis of this crucial chemical building block for your R&D needs.
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2-Pyridylamidoxime
2-Pyridylamidoxime (CAS 1772-01-6) is a vital organic compound widely recognized as a key pharmaceutical intermediate. Its utility in the synthesis of complex drug molecules makes it an indispensable component for many research and development projects. This compound's chemical structure and reactivity facilitate a range of important transformations, underpinning its value in the chemical industry.
- Unlock New Drug Possibilities: Discover how 2-pyridylamidoxime serves as a crucial pharmaceutical intermediate in the development of novel therapeutic agents.
- Reliable Synthesis Pathway: Understand the common 2-cyanopyridine to 2-pyridylamidoxime conversion, a fundamental step for researchers.
- High Purity for Research: Benefit from its consistent quality, typically offered as a white powder chemical intermediate with high purity for precise experimental outcomes.
- Versatile Chemical Building Block: Leverage its structure as a versatile organic synthesis building block to create diverse chemical entities.
Advantages of Using 2-Pyridylamidoxime
Facilitates Complex Molecular Synthesis
As a key pharmaceutical intermediate, 2-Pyridylamidoxime enables the efficient construction of intricate molecular architectures essential for drug discovery.
Consistent Quality Assured
Sourced from reliable manufacturers, this compound is typically provided as a high-purity white powder chemical intermediate, ensuring reproducible results in your synthesis.
Cost-Effective Building Block
The availability of established 2-cyanopyridine to 2-pyridylamidoxime synthesis routes contributes to its cost-effectiveness as a buy 2-pyridylamidoxime online option for research needs.
Key Applications
Pharmaceutical Development
2-Pyridylamidoxime is a fundamental compound for researchers engaged in drug discovery, serving as a critical pharmaceutical intermediate in the creation of new APIs.
Organic Chemistry Research
Its reactive functional groups make it a valuable organic synthesis building block, utilized in academic and industrial labs for various chemical transformations.
Material Science
Exploration into its potential uses in novel materials, where its heterocyclic structure can impart unique properties, is an ongoing area of research.
Chemical Synthesis Intermediates
Beyond pharmaceuticals, it functions as a general intermediate for synthesizing various fine chemicals, reflecting its broad applicability.