What is the IUPAC name of 3 - bromochlorobenzene?

What is the IUPAC name of 3 - bromochlorobenzene?

In the realm of organic chemistry, the International Union of Pure and Applied Chemistry (IUPAC) nomenclature system serves as a universal language, enabling chemists worldwide to communicate precisely about chemical compounds. When it comes to 3 - bromochlorobenzene, understanding its IUPAC name not only deepens our knowledge of chemical naming rules but also has practical implications for industries such as pharmaceuticals, agrochemicals, and materials science. As a supplier of 3 - bromochlorobenzene, I am well - versed in the significance of this compound and its naming.

Let's first break down the structure of 3 - bromochlorobenzene. It is a derivative of benzene, which is a six - membered aromatic ring with the molecular formula (C_6H_6). In 3 - bromochlorobenzene, two substituents are attached to the benzene ring: a bromine atom ((Br)) and a chlorine atom ((Cl)). The number "3" in the name indicates the relative positions of these two substituents.

According to the IUPAC rules for naming benzene derivatives with multiple substituents, we first need to number the carbon atoms of the benzene ring. The goal is to assign the lowest possible set of locants (numbers) to the substituents. In the case of 3 - bromochlorobenzene, we start numbering the carbon atoms of the benzene ring in a way that gives the lowest numbers for the positions of the bromine and chlorine atoms.

The IUPAC name of 3 - bromochlorobenzene is 1 - bromo - 3 - chlorobenzene. This name follows the convention of listing the substituents in alphabetical order (bromo comes before chloro) and then indicating their positions on the benzene ring with numbers. The carbon atom to which the first - listed substituent (bromine in this case) is attached is assigned the number 1, and then we number the other carbon atoms around the ring to locate the second substituent (chlorine).

Now, let's explore the significance of 3 - bromochlorobenzene in various industries. In the pharmaceutical industry, it can serve as a key intermediate in the synthesis of various drugs. The unique combination of bromine and chlorine atoms on the benzene ring provides specific reactivity patterns that can be exploited in chemical reactions to build more complex pharmaceutical molecules. For example, the bromine atom can participate in substitution reactions, while the chlorine atom can influence the electronic properties of the molecule, affecting its biological activity.

In the agrochemical field, 3 - bromochlorobenzene can be used in the production of pesticides and herbicides. The presence of halogen atoms on the benzene ring can enhance the compound's stability and its ability to interact with target organisms. These properties make it a valuable building block for developing effective and selective agrochemical products.

Materials science also benefits from 3 - bromochlorobenzene. It can be incorporated into polymers and functional materials to impart specific properties such as flame retardancy, conductivity, or chemical resistance. The bromine and chlorine atoms can act as cross - linking sites or modify the surface properties of the materials, making them suitable for a wide range of applications.

As a supplier of 3 - bromochlorobenzene, we understand the importance of providing high - quality products to our customers. Our 3 - bromochlorobenzene is manufactured under strict quality control measures to ensure its purity and consistency. We use advanced analytical techniques to verify the identity and quality of the product, and only release it to the market when it meets our rigorous standards.

In addition to 3 - bromochlorobenzene, we also offer other related organic intermediates. For example, we supply 1 - Bromoadamantane, which is another important compound in organic synthesis. 1 - Bromoadamantane has a unique cage - like structure and is widely used in the preparation of pharmaceuticals, polymers, and other fine chemicals.

Another product in our portfolio is 2 - Adamantanone CAS 700 - 58 - 3. It is a valuable starting material for the synthesis of various biologically active compounds. The carbonyl group in 2 - Adamantanone can undergo a variety of reactions, allowing chemists to construct diverse molecular structures.

We also provide Pal - Glu(OSu) - OH Succinimidyl Ester CAS 294855 - 91 - 7, which is a key pharmaceutical intermediate. This compound is used in the synthesis of liraglutide, an antidiabetic drug. Our high - quality Pal - Glu(OSu) - OH Succinimidyl Ester ensures the efficient and reliable production of liraglutide.

If you are in the market for 3 - bromochlorobenzene or any of our other organic intermediates, we invite you to contact us for a business negotiation. We are committed to providing excellent products and services to meet your specific needs. Whether you are a small research laboratory or a large - scale manufacturing company, we have the capacity and expertise to support your projects.

In conclusion, the IUPAC name of 3 - bromochlorobenzene is 1 - bromo - 3 - chlorobenzene, and this compound has a wide range of applications in different industries. As a professional supplier, we are dedicated to supplying high - quality products and contributing to the development of the chemical industry.

References

• IUPAC "Nomenclature of Organic Chemistry: IUPAC Recommendations and Preferred Names 2013"
• Organic Chemistry textbooks such as "Organic Chemistry" by Paula Y. Bruice