3-Isoquinolinecarboxaldehyde: Synthesis, Properties, and Applications
Discover the vital role of this key isoquinoline derivative in chemical synthesis and drug development.
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3-Isoquinolinecarboxaldehyde
3-Isoquinolinecarboxaldehyde (CAS: 5470-80-4) is a critical aromatic aldehyde, integral to the synthesis of numerous pharmaceutical agents and industrial chemicals. Its unique structure makes it a valuable building block in organic synthesis, and it is also recognized for its potency as an inhibitor of protein synthesis.
- As a vital 3-isoquinolinecarboxaldehyde CAS 5470-80-4 synthesis intermediate, this compound facilitates the creation of complex molecular structures.
- The isoquinoline-3-carbaldehyde intermediate uses are diverse, ranging from drug discovery to the development of advanced materials.
- Exploring 3-formylisoquinoline pharmaceutical applications reveals its significance in creating novel therapeutic agents.
- This compound serves as a key organic chemistry building block in isoquinoline chemistry, enabling intricate reaction pathways.
Key Advantages
High Purity and Quality
Ensuring 97% purity, this compound is ideal for sensitive organic synthesis reactions where precision is paramount.
Versatile Intermediate
Its role as a potent inhibitor of protein synthesis and its broad utility in creating various chemicals underscore its versatility.
Facilitates Complex Synthesis
As a cornerstone for 3-isoquinolinecarboxaldehyde CAS 5470-80-4 synthesis, it simplifies the production of sophisticated molecules.
Key Applications
Pharmaceutical Synthesis
Critical for developing new drugs, its pharmaceutical applications are a major driver for its demand.
Organic Chemistry
Serves as a fundamental building block in organic chemistry, enabling a wide array of synthetic transformations.
Fine Chemical Manufacturing
Its use in producing specialized chemicals highlights its importance in the fine chemical industry.
Research and Development
Essential for researchers exploring new chemical entities and reaction pathways, especially in heterocyclic chemistry.