N-(4-Oxocyclohexyl)phthalimide CAS 104618-32-8: A Key Intermediate in Electronic Chemicals and Pharmaceutical Synthesis
Discover the versatile applications and chemical properties of this essential compound for your advanced manufacturing needs.
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N-(4-Oxocyclohexyl)phthalimide
N-(4-Oxocyclohexyl)phthalimide, identified by CAS number 104618-32-8, is a critical chemical intermediate widely utilized in the electronic chemicals sector, particularly in the formulation of photoresists. Its well-defined molecular structure (C14H13NO3) and notable purity levels make it a reliable component for precise manufacturing processes. Beyond its industrial applications, it also serves as a known impurity in the synthesis of certain pharmaceuticals, highlighting its relevance in quality control and drug development.
- This compound is instrumental as a building block in organic synthesis, enabling the creation of complex molecules essential for advanced materials.
- Understanding the N-(4-Oxocyclohexyl)phthalimide CAS 104618-32-8 synthesis is key for manufacturers seeking to optimize production yields and product purity.
- As a photoresist chemical, it contributes to the intricate patterning processes required in semiconductor and PCB manufacturing.
- Its role as a pharmaceutical impurity, such as in Pramipexol, underscores the importance of precise chemical characterization in the pharmaceutical intermediate supply chain.
Key Advantages
High Purity and Consistency
With a purity of 98.0+% (GC,N), this compound ensures reliable and reproducible results in sensitive electronic and pharmaceutical applications, supporting precise N-(4-Oxocyclohexyl)phthalimide synthesis processes.
Versatile Chemical Intermediate
Its unique chemical structure makes it a valuable intermediate for a wide range of organic synthesis applications, contributing to the development of novel materials and compounds.
Critical Role in Electronics
As a component in photoresist formulations, it is vital for the high-resolution patterning required in modern semiconductor fabrication and printed circuit board manufacturing.
Key Applications
Photoresist Formulation
Essential for creating precise patterns on semiconductor wafers and PCBs, critical for the electronics manufacturing industry.
Pharmaceutical Synthesis
Used as a precursor or identified as an impurity in the synthesis of active pharmaceutical ingredients, impacting drug development and quality control.
Organic Synthesis Building Block
Serves as a versatile starting material for synthesizing various organic compounds and complex molecules in research and development.
Specialty Chemicals
Its unique properties lend themselves to applications in other specialized chemical industries requiring specific molecular structures and reactivity.