Discover the exceptional versatility of 4-(3-Methylthioureido)phenylboronic acid, a premium organic building block with a unique molecular structure. Boasting a CAS number of 1072946-18-9 and a molecular weight of 210.06g/mol, this compound offers a powerful tool for advanced chemical synthesis and research. Its boronic acid functionality and methylthiourea moiety create a dynamic platform for diverse applications, from pharmaceuticals to materials science. Harness the precision and performance of this high-purity (>97%) chemical, and unlock a world of innovative possibilities in your laboratory. Embrace the quality and reliability that this exceptional product delivers, elevating your experiments to new heights.
Unlock the versatile potential of 4-(3-Methylthioureido)phenylboronic acid, a remarkable chemical compound that holds the key to unlocking new frontiers in scientific research and innovation. With its unique molecular structure and exceptional purity, this Benzenes-based Organic Building Block offers a world of possibilities for researchers and chemists alike.
At the heart of this compound lies a captivating blend of boron, nitrogen, sulfur, and carbon atoms, meticulously arranged to create a molecule with remarkable versatility. The CAS number 1072946-18-9 and the Ref # 54-OR361494 serve as distinct identifiers, ensuring seamless integration into your research endeavors.
The molecular weight of 210.06g/mol and the MFCD10699624 MDL number provide a clear technical profile, while the HS code 2931900090 facilitates international trade and collaboration. Regardless of the specific application, this compound's exceptional quality and purity, typically exceeding 95%, guarantee reliable and consistent results in your experiments.
In the dynamic realm of pharmaceutical research, 4-(3-Methylthioureido)phenylboronic acid shines as a valuable building block. Its unique chemical structure allows for the synthesis of innovative drug candidates, targeting a wide range of therapeutic areas. From neurological disorders to metabolic conditions, this compound's versatility empowers researchers to push the boundaries of modern medicine.
The presence of the boronic acid moiety and the methylthiourea functionality endows the molecule with distinct reactivity, enabling the creation of complex pharmaceutical intermediates and final drug products. Researchers can harness the compound's properties to enhance bioavailability, target specificity, and overall therapeutic efficacy, ultimately improving patient outcomes.
Beyond the pharmaceutical realm, 4-(3-Methylthioureido)phenylboronic acid also finds its place in the dynamic world of agrochemicals. Its chemical structure and properties contribute to the development of advanced crop protection agents, helping to safeguard agricultural yields and promote sustainable farming practices.
The compound's unique functionalities can be leveraged to synthesize potent and selective pesticides, herbicides, or fungicides. By incorporating 4-(3-Methylthioureido)phenylboronic acid into agrochemical formulations, researchers can create products that effectively combat pests and diseases while minimizing environmental impact, ultimately leading to healthier crops and increased food security.
The versatility of 4-(3-Methylthioureido)phenylboronic acid extends beyond the realms of pharmaceuticals and agrochemicals, making it a valuable asset in the broader field of chemical synthesis. Its distinct chemical properties and reactivity patterns enable researchers to explore the creation of novel materials, compounds, and intermediates with tailored characteristics.
Whether you're working on the development of advanced polymers, the synthesis of specialty chemicals, or the exploration of new molecular architectures, this compound can serve as a crucial building block. Its integration into your research and development efforts can unlock new avenues for innovation, leading to breakthroughs that push the boundaries of scientific knowledge.
While the specific hazard information for 4-(3-Methylthioureido)phenylboronic acid is yet to be confirmed (TBC), it is essential to handle this compound with the utmost care and diligence. Adhere to standard laboratory safety protocols, including the use of personal protective equipment (PPE) and working in a well-ventilated area.
For optimal long-term storage and to maintain the compound's purity and stability, it is recommended to store 4-(3-Methylthioureido)phenylboronic acid in a cool, dry, and well-ventilated environment. Proper storage conditions are crucial to ensure the integrity of this valuable chemical asset, enabling you to unlock its full potential in your research endeavors.