Discover the Versatile Applications of (2-(Methylthio)phenyl)boronic Acid in Organic Synthesis and Beyond
A crucial building block for complex molecular structures, essential in modern chemical research and development.
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(2-(Methylthio)phenyl)boronic acid
This high-purity (99% min) organic intermediate, identified by CAS 168618-42-6, is a cornerstone in advanced organic synthesis. Its unique structure facilitates critical reactions, enabling the creation of sophisticated molecules vital for various industries.
- Explore the synthesis of complex organic molecules using 2-(Methylthio)phenylboronic acid in cutting-edge research.
- Leverage the power of Suzuki-Miyaura coupling with 2-(Methylthio)phenylboronic acid for efficient carbon-carbon bond formation.
- Investigate the diverse applications of 2-(Methylthio)phenylboronic acid in drug discovery and development pipelines.
- Utilize this compound as a key building block for advanced perovskite materials in optoelectronic applications.
Key Advantages
Enhanced Reactivity
The presence of the methylthio group significantly influences the reactivity and selectivity of the boronic acid in various chemical transformations, making it a preferred choice for demanding synthetic routes.
Versatile Building Block
As a vital component in organic synthesis, it serves as a versatile precursor for a wide array of functionalized organic compounds, expanding the possibilities in medicinal chemistry and materials science.
High Purity Assurance
With a guaranteed purity of 99% minimum, researchers and manufacturers can rely on the consistent performance and predictability of this compound in their critical processes, ensuring reproducible results.
Key Applications
Organic Synthesis
Facilitates the construction of complex organic frameworks through key reactions like Suzuki-Miyaura coupling, crucial for developing new pharmaceuticals and agrochemicals.
Drug Development
Serves as an essential intermediate in the synthesis of active pharmaceutical ingredients (APIs), contributing to the creation of novel therapeutics with enhanced efficacy.
Materials Science
Employed in the creation of advanced materials, including components for perovskite solar cells and organic electronics, owing to its unique chemical properties.
Research & Development
A valuable tool for academic and industrial researchers exploring new synthetic methodologies and discovering novel chemical entities for diverse applications.
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