N-(2-Oxoethyl)phthalimide: A Versatile Intermediate in Organic Synthesis
Discover the key properties and applications of this crucial compound for your research and development.
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N-(2-Oxoethyl)phthalimide
N-(2-Oxoethyl)phthalimide is a vital building block in modern organic chemistry, renowned for its utility in constructing complex molecular architectures. Its distinct structure allows for targeted functionalization, making it indispensable for researchers developing novel compounds.
- Unlock advanced organic synthesis pathways with N-(2-Oxoethyl)phthalimide, a key intermediate for complex molecule synthesis.
- Benefit from the high purity (>98%) of N-(2-Oxoethyl)phthalimide, ensuring reliable and reproducible results in your chemical reactions.
- Explore the diverse chemical uses of 2913-97-5, facilitating breakthroughs in pharmaceutical research and material science.
- Source phthalimidoacetaldehyde with confidence, knowing you are obtaining a critical component for various organic synthesis projects.
Advantages You Gain
Enhanced Synthetic Efficiency
Leverage the versatility of phthalimide derivatives applications to streamline your synthetic routes and reduce experimental steps.
Reliable Purity Standards
The consistently high purity (>98%) of N-(2-Oxoethyl)phthalimide guarantees the integrity of your experimental outcomes.
Broad Chemical Utility
Utilize N-(2-Oxoethyl)phthalimide for a wide range of applications, from developing new pharmaceuticals to advanced materials.
Key Applications
Pharmaceutical Intermediate
As a critical building block, N-(2-Oxoethyl)phthalimide plays a significant role in the synthesis of various pharmaceutical compounds and drug candidates.
Organic Synthesis Reagent
Its reactivity makes phthalimidoacetaldehyde a valuable reagent for various organic transformations, enabling the creation of complex molecular structures.
Research and Development
Researchers frequently employ N-(2-Oxoethyl)phthalimide in R&D for its predictable behavior and utility in exploring novel chemical reactions and materials.
Material Science
The unique properties of phthalimide derivatives find applications in material science, contributing to the development of new functional materials.