4-Methoxy-3-nitrobenzyl Bromide: A Key Building Block in Organic Synthesis
Discover the essential properties and applications of this vital organic synthesis intermediate.
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4-Methoxy-3-nitrobenzyl Bromide
This compound serves as a fundamental starting material and building block for a wide array of organic synthesis pathways. Its unique chemical structure allows for diverse functionalization, making it indispensable in the creation of complex molecules.
- As a versatile intermediate, 4-methoxy-3-nitrobenzyl bromide is extensively used in organic synthesis. Its utility is demonstrated in various research applications.
- Understanding the chemical properties of 4-methoxy-3-nitrobenzyl bromide is crucial for researchers and manufacturers. Key characteristics include its molecular formula C8H8BrNO3 and a molecular weight of 246.06.
- The CAS number 61010-34-2 uniquely identifies this compound, ensuring accurate sourcing and handling. Many suppliers offer this chemical, facilitating its accessibility for research and production.
- The compound's appearance as a light yellow to yellow solid, with a melting point of 108°C, provides important physical data for its handling and application.
Advantages of Utilizing This Intermediate
Versatility in Synthesis
The inherent reactivity of the benzyl bromide group, coupled with the methoxy and nitro substituents, offers significant versatility for chemists exploring various organic synthesis routes.
Broad Commercial Availability
Numerous 4-methoxy-3-nitrobenzyl bromide suppliers ensure that this critical chemical intermediate is readily available for both academic research and industrial scale production.
Foundation for Fine Chemicals
As a key building block, it forms the basis for developing a wide range of sophisticated fine chemicals, driving innovation in various chemical sectors.
Key Applications
Pharmaceutical Intermediates
Its structure makes it a valuable precursor in the synthesis of various active pharmaceutical ingredients (APIs) and drug candidates, contributing to advancements in medicine.
Agrochemical Synthesis
This compound can be utilized in the development of novel agrochemicals, aiding in crop protection and agricultural productivity.
Specialty Chemicals Development
It serves as a critical component in the creation of specialty chemicals for diverse industrial applications, from materials science to advanced manufacturing.
Research and Development
As a fundamental organic synthesis reagent, it is indispensable for laboratory-scale experiments and the exploration of new chemical reactions and compounds.