Basic Information of N-acetylcaprolactam:
Common Name:N-Acetylcaprolactam
CAS No.:1888-91-1
EINECS:217-565-6
Molecular Formula:C₈H₁₃NO₂
Molecular Weight:155.19
Chromatographic Purity:≥98.0%
Primary Function: This product is primarily used as an intermediate in organic synthesis and pharmaceutical manufacturing, serving both laboratory R&D and industrial chemical production.
I. Core Advantages: Why Choose N-Acetylcaprolactam?
N-Acetylcaprolactam stands out in the chemical industry due to its unique combination of purity, stability, and production scalability.
High-Purity Raw Material for Pharmaceutical Applications
Manufactured using advanced refining techniques, our N-Acetylcaprolactam achieves a chromatographic purity of ≥98.5%. This high purity level meets the stringent requirements of the pharmaceutical intermediate sector, ensuring compliance with strict impurity control standards.
Stable Structure for Flexible Synthesis
Featuring both a lactam ring and an acetyl group, this compound offers dual reactivity. This unique structure allows for the easy introduction of various functional groups and facilitates derivatization under mild reaction conditions, providing exceptional adaptability in complex synthetic pathways.
Scalable to Industrial Production
With a mature and reliable synthetic route and consistent batch-to-batch quality, N-Acetylcaprolactam supports stable supply chains from kilogram laboratory scales to multi-ton commercial production. It is an ideal choice for pilot projects and full-scale manufacturing in the chemical and pharmaceutical industries.
II. Key Application Areas
The versatility of N-Acetylcaprolactam makes it a valuable building block across multiple sectors.
1. Pharmaceutical Intermediate
N-Acetylcaprolactam plays a crucial role in the synthesis of small-molecule drugs. It is frequently employed for constructing complex molecular frameworks or acting as a protecting group. It is particularly effective in synthesizing nitrogen-containing heterocyclic compounds found in a wide range of therapeutics, including antibacterial, anti-inflammatory, and central nervous system (CNS) agents.
2. High-Performance Polymer Synthesis
As a derivative of caprolactam, this compound is a valuable tool for polyamide modification. It can be incorporated into polymer chains to enhance material properties such as flexibility and heat resistance. These enhanced polymers are widely used in demanding applications like engineering plastics and electronic device housings.
3. Fine Chemical & R&D Raw Material
In the field of fine chemicals, N-Acetylcaprolactam serves as a key starting material for designing functional monomers and developing novel reaction auxiliaries. Its unique properties make it a sought-after reagent for universities, research institutions, and chemical companies engaged in advanced product development.
N-Acetylcaprolactam is a high-purity, structurally distinctive, and versatile pharmaceutical intermediate. Its excellent chemical properties are driving increased interest and adoption by pharmaceutical and chemical companies worldwide. With significant value in pharmaceutical synthesis, polymer modification, and fine chemical development, it is a key intermediate product worthy of strategic attention.