4-Iodophenylboronic Acid: A Versatile Reagent in Organic Synthesis and Chemical Research
Unlock new possibilities in your research with this essential building block for complex molecular structures.
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4-Iodophenylboronic acid
4-Iodophenylboronic acid is a critical compound widely utilized in organic synthesis, particularly for its role in Suzuki reactions and other cross-coupling processes. Its unique structure, featuring an iodine atom at the para position, makes it an invaluable building block for creating complex organic molecules. This makes it a key intermediate for chemists working on advanced projects.
- Explore the power of 4-iodophenylboronic acid Suzuki reaction for efficient C-C bond formation in your next synthesis project.
- As a vital component within organoborons boronic acids, it enables the construction of intricate molecular architectures.
- Leverage this chemical research reagent to drive innovation in drug discovery and material science.
- Its applications in enzyme kinetics studies offer insights into biological processes at a molecular level.
Advantages Offered by the Product
Versatile Synthetic Utility
The compound's structure facilitates participation in numerous organic synthesis pathways, making it a versatile tool for chemists. This versatility is crucial when exploring different routes to target molecules, enhancing the efficiency of organic synthesis intermediate development.
Enables Complex Molecule Construction
By participating in crucial cross-coupling reactions, this boronic acid derivative is instrumental in building complex organic molecules. Its role in protein-carbohydrate interactions adds another layer of utility for biochemical research applications.
High Purity and Quality
Ensuring a high purity level is paramount for reliable results in critical research. This product is characterized by its light beige powder form, indicating consistent quality for demanding applications.
Key Applications
Organic Synthesis
As a fundamental building block, it is extensively used in creating new organic compounds, driving innovation in various chemical sectors.
Suzuki Reactions
Its participation in Suzuki-Miyaura coupling reactions is a cornerstone of modern synthetic organic chemistry, enabling the formation of carbon-carbon bonds with high efficiency.
Biochemical Research
Used in studies related to enzyme kinetics and understanding molecular interactions, it provides valuable insights into biological systems.
Pharmaceutical Development
Serves as a key intermediate in the synthesis of pharmaceutical compounds, contributing to the development of new therapeutic agents.