Chemical intermediates are the unsung heroes of synthesis, forming the critical link between raw materials and final products. Their specific structures and reactivities dictate the possibilities of what can be created. This article shines a spotlight on 1,3-Bis(isocyanatomethyl)cyclohexane (CAS 38661-72-2), a diisocyanate compound that serves as a highly valuable intermediate in numerous chemical processes. For researchers and manufacturers, understanding this compound is the first step to unlocking its full potential.

Chemical Profile of 1,3-Bis(isocyanatomethyl)cyclohexane

1,3-Bis(isocyanatomethyl)cyclohexane, identified by its CAS number 38661-72-2, is an organic molecule with the molecular formula C10H14N2O2 and a molecular weight of approximately 194.23 g/mol. Its defining characteristic is the presence of two isocyanate (-NCO) groups. These groups are highly reactive electrophiles, readily participating in addition reactions with nucleophiles, especially those containing active hydrogen atoms like hydroxyl (-OH) and amine (-NH2) groups. This reactivity is the cornerstone of its utility as a chemical intermediate.

Key physical and chemical properties include:

  • Appearance: Typically a colorless liquid.
  • Purity: Often supplied with an assay of ≥99.0%, ensuring high-quality outcomes in synthesis.
  • Structure: It features isocyanatomethyl groups attached to a cyclohexane ring, classifying it as a cycloaliphatic diisocyanate. This structural feature imparts specific steric and conformational properties to the molecules derived from it.

The compound's CAS number, 38661-72-2, is a unique identifier recognized globally, facilitating its procurement and scientific referencing.

Role as a Chemical Intermediate

The bifunctional nature of 1,3-Bis(isocyanatomethyl)cyclohexane makes it an exceptionally versatile intermediate:

  • Polymer Synthesis: It is a fundamental monomer in the production of polyurethanes and polyureas. By reacting with polyols or polyamines, it forms long polymer chains. The cycloaliphatic backbone of this diisocyanate offers advantages such as improved UV stability and mechanical robustness compared to aromatic isocyanates. This makes it a preferred choice for applications requiring durability and weather resistance, such as in high-performance coatings and elastomers.
  • Cross-linking Agent: It can be used to cross-link existing polymer chains, enhancing their strength, rigidity, and thermal stability. This is particularly useful in thermosetting polymer systems.
  • Synthesis of Specialty Chemicals: The reactive isocyanate groups can be modified or reacted with various functional molecules to create a diverse range of specialty chemicals, including curing agents, surface modifiers, and components for advanced materials. Researchers frequently buy this compound to explore novel chemical structures.
  • Adhesives and Sealants: Its ability to form strong urethane bonds makes it a key ingredient in formulating high-strength adhesives and durable sealants for industrial and construction applications.

When sourcing for these applications, understanding the required purity and packaging (e.g., 200 kg drums) from a reputable manufacturer is essential.

Procurement Considerations for Researchers and Manufacturers

For those looking to buy 1,3-Bis(isocyanatomethyl)cyclohexane, engaging with a trusted chemical supplier is crucial. Key considerations include:

  • Quality and Purity: Verifying the ≥99.0% assay through a Certificate of Analysis (CoA) is non-negotiable for predictable synthesis results.
  • Supplier Reliability: A well-established manufacturer ensures consistent product availability and adheres to safety and quality standards.
  • Technical Data: Access to comprehensive technical data, including physical properties and handling guidelines, is vital for safe and effective use.
  • Pricing and Volume: For industrial applications, inquiring about bulk purchase price and available quantities is a standard practice.

In essence, 1,3-Bis(isocyanatomethyl)cyclohexane (CAS 38661-72-2) is more than just a chemical compound; it's a gateway to advanced materials and novel chemical entities. By leveraging its unique properties and sourcing it strategically, chemists and engineers can drive innovation across various industries.