Discover the exceptional versatility of Di-µ-chlorobis[2-[(dimethylamino)methyl]phenyl-C,N]dipalladium(II), a premium organometallic compound with a unique molecular structure. Boasting a CAS number of 18987-59-2 and a molecular weight of 552.14g/mol, this compound offers a captivating blend of reactivity and selectivity. Meticulously crafted with a melting point of 175°C, it is an invaluable tool for researchers and chemists seeking precision and performance in their experiments. However, handle with care as it is classified as an irritant, causing skin, eye, and respiratory discomfort. Always store in a cool, well-ventilated area and wear appropriate protective gear. Unlock the potential of this exceptional compound and elevate your scientific endeavors to new heights.
Unlock the versatile potential of Di-µ-chlorobis[2-[(dimethylamino)methyl]phenyl-C,N]dipalladium(II), a meticulously crafted organometallic compound that holds the key to unlocking new frontiers in scientific research and development. With its unique chemical structure and exceptional purity, this compound is poised to become an indispensable tool in the hands of discerning researchers and chemists.
Identified by its CAS number 18987-59-2 and product reference 54-OR72301, this di-chlorobis organometallic complex boasts a molecular weight of 552.14g/mol and a melting point of 175°C. Its distinct chemical composition, featuring a palladium core with two dimethylaminomethyl-substituted phenyl ligands, endows it with a remarkable set of properties that make it a valuable asset in a wide range of scientific applications.
In the realm of pharmaceutical research, Di-µ-chlorobis[2-[(dimethylamino)methyl]phenyl-C,N]dipalladium(II) shines as a versatile building block for the synthesis of innovative drug candidates. Its unique structural features and reactivity allow chemists to explore new molecular architectures, potentially leading to the development of targeted therapies for a variety of health conditions. The compound's ability to participate in selective catalytic transformations makes it a valuable tool in the optimization of complex pharmaceutical intermediates and final drug products.
Researchers in this field can leverage the compound's properties to unlock new possibilities in drug discovery, unlocking the potential for breakthroughs that can positively impact patient outcomes.
Beyond the pharmaceutical realm, this di-chlorobis organometallic compound finds its niche in the dynamic field of organometallic chemistry and catalysis. Its palladium-based core and unique ligand environment endow it with the ability to participate in a wide range of catalytic transformations, making it a sought-after reagent for organic synthesis and the development of novel materials.
Chemists and material scientists can harness the compound's catalytic prowess to explore new synthetic pathways, unlocking the potential for the creation of complex organic molecules, functional materials, and advanced polymers. The compound's versatility allows researchers to push the boundaries of what is possible in the realm of chemical innovation.
While Di-µ-chlorobis[2-[(dimethylamino)methyl]phenyl-C,N]dipalladium(II) is a powerful tool in the hands of skilled researchers, it is essential to exercise caution when handling this compound. It is classified as an irritant, with hazard statements H315, H319, and H335 indicating the potential for skin, eye, and respiratory irritation.
Appropriate personal protective equipment, such as protective gloves, clothing, eye protection, and a face mask, should be worn when working with this compound. Ensure adequate ventilation and avoid breathing in its dust, fumes, gas, mist, vapors, or spray. In the event of accidental exposure, seek immediate medical attention.
For optimal storage and long-term stability, keep the compound in a cool, well-ventilated area, and maintain the container tightly closed. By following these safety guidelines, researchers can unlock the full potential of this organometallic compound while prioritizing their own well-being and that of their laboratory environment.
Di-µ-chlorobis[2-[(dimethylamino)methyl]phenyl-C,N]dipalladium(II) stands as a testament to the power of innovative chemistry. Its unique structure, exceptional purity, and diverse applications make it a valuable asset in the hands of researchers and chemists seeking to push the boundaries of scientific discovery.
Embrace the opportunities presented by this remarkable organometal