For academic and industrial researchers delving into organic chemistry, the selection of appropriate starting materials and intermediates is fundamental to experimental success. Cyclopentenone, identified by CAS 930-30-3, is a molecule frequently encountered in synthetic organic chemistry due to its versatile reactivity and its presence in various natural products and bioactive compounds. This guide is tailored for researchers seeking to understand the key properties of Cyclopentenone and how to efficiently source it for their laboratory work.

Cyclopentenone (C5H6O) is a cyclic organic compound characterized by a five-membered ring containing a carbonyl group adjacent to a double bond. This alpha-beta unsaturated ketone system confers specific reactivity, making it an excellent substrate for Michael additions, Diels-Alder cycloadditions, and various other transformations essential for building molecular complexity. Its boiling point of approximately 136.0°C at 760 mmHg and its appearance as a transparent yellow liquid are important physical properties for handling and reaction planning.

Researchers often need to buy Cyclopentenone for projects ranging from methodology development to the total synthesis of natural products. The purity of the purchased material is a critical factor for successful experiments. We recommend sourcing Cyclopentenone with a minimum purity of 99% from reputable suppliers to ensure reproducible results and minimize unexpected side reactions. Understanding the typical cyclopentenone price for synthesis can aid in grant proposal preparation and laboratory budget management.

When looking for a cyclopentenone supplier China, researchers should consider factors beyond just price. Reliability of supply, clear product specifications, and availability of documentation (like Certificates of Analysis) are crucial. Many suppliers also offer smaller quantities suitable for laboratory research, which can be convenient for initial studies. Exploring the various cyclopentenone CAS 930-30-3 application notes in scientific literature can provide inspiration for new research directions.

The versatility of Cyclopentenone makes it a valuable tool in various research areas. Its role in the synthesis of prostaglandins, important signaling molecules, and its application in developing novel drug candidates underscore its significance. For academic researchers, access to high-quality intermediates at reasonable prices is essential for pushing the boundaries of scientific knowledge. Engaging with dedicated chemical suppliers can facilitate these research efforts.

In summary, Cyclopentenone (CAS 930-30-3) is an important organic intermediate for researchers. Familiarizing oneself with its properties, common applications, and the best practices for sourcing from reliable manufacturers and suppliers will significantly enhance the efficiency and success of laboratory research. Ensuring access to pure and consistent Cyclopentenone is a key step for any research project involving its use.