For chemists and material scientists working with specialized organic compounds, understanding the intrinsic chemical properties and proper handling procedures for materials like 2,6-Dibromoanthracene (CAS 186517-01-1) is fundamental to successful and safe laboratory practice. This article provides a detailed look at the key characteristics of this compound and essential guidelines for its management, aiding researchers and procurement specialists in their work.

2,6-Dibromoanthracene is characterized by its molecular formula C14H8Br2 and a molecular weight of 336.02 g/mol. As indicated by its physical appearance, it is typically supplied as a white powder. The compound's structure features an anthracene backbone, a polycyclic aromatic hydrocarbon, substituted with two bromine atoms at the 2 and 6 positions. This specific substitution pattern dictates its reactivity and its suitability for various synthetic applications.

Key physical properties, such as its boiling point (estimated around 438.8 °C at 760 mmHg) and flash point (estimated around 256.2 °C), provide insights into its thermal stability and flammability. While its density is approximately 1.768 g/cm³, these values are estimations and can vary slightly depending on purity and measurement conditions. Its solubility characteristics are typical for aromatic compounds, generally showing low solubility in water but good solubility in various organic solvents, which is important for reaction setup and purification.

When handling 2,6-Dibromoanthracene, adherence to standard laboratory safety protocols is crucial. As with many fine chemicals, it is important to avoid inhalation of dust, contact with skin, and eye exposure. Wearing appropriate personal protective equipment (PPE), including safety goggles, gloves, and a lab coat, is mandatory. Work should ideally be conducted in a well-ventilated area, such as a fume hood, to minimize exposure to airborne particles or vapors.

Manufacturers provide Safety Data Sheets (SDS) that offer comprehensive information on hazards, first-aid measures, firefighting procedures, and spill containment. It is imperative for all laboratory personnel working with 2,6-Dibromoanthracene to review and understand the SDS thoroughly before commencing any work. Understanding these guidelines ensures safe handling, storage, and disposal, thereby protecting both personnel and the environment.

For those looking to buy 2,6-Dibromoanthracene, it is advisable to procure it from established manufacturers and suppliers who guarantee product quality and provide accurate safety information. This ensures that you are working with a material that meets its specified purity and has been handled and packaged appropriately. Reliable suppliers in China are often well-equipped to provide these materials with the necessary documentation.

In essence, a thorough understanding of 2,6-Dibromoanthracene's chemical properties and robust handling practices are indispensable for efficient and safe research and development. By prioritizing safety and consulting SDS from reputable suppliers, scientists can effectively utilize this compound in their synthetic endeavors.