The field of organic synthesis is constantly evolving, driven by the need for novel materials and more efficient production methods. At the heart of many such advancements lies the judicious selection of chemical intermediates, compounds that bridge the gap between basic reactants and complex end-products. 1-Fluoro-3-bromopropane, bearing the CAS number 352-91-0, stands out as a prime example of such a critical intermediate, offering unparalleled utility in a wide array of synthetic pathways. Its dual halogen functionality makes it a highly sought-after building block for creating sophisticated organic molecules, underscoring its importance as an 1-Fluoro-3-bromopropane organic synthesis intermediate.

The inherent chemical properties of 1-Fluoro-3-bromopropane, including its density of 1.458 g/cm³ and a flash point of 16.4°C, dictate its handling requirements and reactivity. These characteristics, coupled with a high assay of ≥99.0%, ensure its efficacy in demanding synthetic applications. Whether it's the synthesis of advanced agrochemicals, the development of functionalized polymers, or the creation of unique specialty chemicals, this compound provides a reliable foundation. For researchers and manufacturers, understanding the specific 1-Fluoro-3-bromopropane chemical properties is key to unlocking its full synthetic potential.

The global chemical industry increasingly looks to China for its robust manufacturing capabilities and competitive pricing, especially for intermediates like 1-Fluoro-3-bromopropane. Companies seeking to buy 1-Fluoro-3-bromopropane CAS 352-91-0 can find a wide range of suppliers, but partnering with a reputable 1-Fluoro-3-bromopropane supplier China, such as NINGBO INNO PHARMCHEM CO.,LTD., ensures quality and consistency. This strategic sourcing is vital for maintaining the integrity of complex multi-step syntheses and for ensuring that production volumes can scale effectively. The role of a dedicated organic synthesis intermediates manufacturer in this ecosystem is crucial for innovation and timely market entry.

Moreover, the application of 1-Fluoro-3-bromopropane extends into areas where the incorporation of fluorine imparts desirable properties, such as increased thermal stability and chemical resistance. This makes it invaluable for creating next-generation materials and high-performance chemicals. The compound's versatility, therefore, positions it as a key enabler for technological advancements across various sectors, reinforcing its status as an indispensable tool in the modern synthetic chemist's arsenal. The consistent supply and technical support from experienced manufacturers are critical for maximizing the benefits derived from this versatile intermediate.