2,4-Dichlorophenylboronic Acid: Your Key to Advanced Organic Synthesis
Unlock groundbreaking research with a versatile building block for pharmaceutical and material science innovation.
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2,4-Dichlorophenylboronic Acid
This high-purity chemical compound serves as an indispensable tool for chemists engaged in complex organic synthesis and the development of novel pharmaceuticals. Its robust structure and reactivity make it a prime candidate for intricate reaction pathways, ensuring efficiency and reliability in your research.
- Facilitate complex molecule synthesis using 2,4-dichlorophenylboronic acid applications. This compound's specific structure enables precise chemical transformations, crucial for building advanced organic structures essential in modern chemistry.
- Source high-quality organic synthesis building blocks for your laboratory needs. The reliable purity and consistent quality of this boronic acid derivative guarantee predictable outcomes in your synthetic routes.
- Explore the benefits of using Suzuki coupling reagents for efficient C-C bond formation. This chemical intermediate is a cornerstone for Suzuki-Miyaura cross-coupling reactions, a widely recognized method for creating carbon-carbon bonds.
- Discover new pharmaceutical intermediates with our range of specialty chemicals. As a vital component in drug discovery, this boronic acid derivative aids in the synthesis of potential therapeutic agents.
Key Advantages of Using 2,4-Dichlorophenylboronic Acid
Enhanced Synthetic Versatility
Leverage the power of 2,4-dichlorophenylboronic acid synthesis to create a wide array of complex organic molecules. Its specific reactivity profile supports various synthetic methodologies, from classic couplings to novel transformations.
Accelerated Drug Discovery
Utilize this key compound as a pharmaceutical intermediate to streamline your drug discovery pipeline. Its role in building potent therapeutic agents makes it a valuable asset for medicinal chemists.
Reliable Chemical Reactions
Count on CAS 68716-47-2 chemical for consistent and reproducible results in your Suzuki coupling reactions, ensuring the integrity and efficiency of your experimental processes.
Key Applications
Organic Synthesis
As a fundamental reagent, it's pivotal in constructing carbon-carbon bonds, essential for creating complex organic molecules used in various industries.
Pharmaceutical Research
Serves as a critical building block in the synthesis of potential drug candidates, accelerating the path from research to therapeutic solutions.
Material Science
Its unique properties lend themselves to the development of advanced materials, including specialized polymers and sensors, pushing the boundaries of material innovation.
Bioconjugation
Enables researchers to link biomolecules to surfaces or other molecules, a key technique for targeted therapies and diagnostic development.