In the intricate world of chemical synthesis and material science, certain compounds stand out for their versatility and critical roles across multiple sectors. Cyclohexyl Chloroformate, identified by its CAS number 13248-54-9, is one such compound. Its molecular structure, C7H11ClO2, and molecular weight of 162.61404, equip it for diverse applications, notably as a UV absorber within UV-Curing Materials and as a fundamental intermediate in the pharmaceutical and fine chemical industries.

As a UV absorber, Cyclohexyl Chloroformate is instrumental in protecting various materials from the degradation caused by ultraviolet radiation. This property is highly valued in coatings, plastics, and adhesives, where enhanced durability and resistance to weathering are essential. The ability to absorb UV light and dissipate it as heat helps to preserve the integrity and appearance of these products over time. For manufacturers, reliable sourcing of such UV absorbers is key to product performance. Companies often seek suppliers offering competitive pricing and consistent quality.

Moreover, Cyclohexyl Chloroformate serves as a crucial Pharmaceutical Intermediate. This means it is employed in the multi-step synthesis of active pharmaceutical ingredients (APIs). The precision and purity required in pharmaceutical manufacturing necessitate high-quality intermediates. Research and development efforts in drug discovery often depend on the availability of such building blocks. The buy/purchase of these fine chemical intermediates is a strategic decision for many pharmaceutical companies, impacting both development timelines and production costs.

The classification of Cyclohexyl Chloroformate as a Fine Chemical further underscores its importance in specialized chemical applications. Fine chemicals are produced with high purity and are often used in complex manufacturing processes. Whether for advanced material protection or for the synthesis of novel therapeutics, Cyclohexyl Chloroformate proves to be a valuable chemical asset. Its multifaceted nature makes it a compound of significant interest for both industrial applications and scientific research, highlighting the interconnectedness of different chemical sectors.