Discover the captivating essence of Biperiden Epoxide N-Oxide, a rare and intriguing impurity that beckons the curious mind. With its unique molecular structure, this compound, bearing the CAS number Not Available, presents a tantalizing challenge for analytical chemists and researchers alike. Boasting a molecular weight of 343.46g/mol and a distinct InChI key of InChIKey=LMEHTUZVCAXJSX-YEUXVZOJSA-N, Biperiden Epoxide N-Oxide offers a glimpse into the intricate world of chemical impurities. Meticulously crafted for long-term storage at +5°C, this product ensures reliable performance, even in the most demanding applications. Unlock the secrets hidden within this captivating impurity and elevate your analytical prowess to new heights.
Biperiden Epoxide N-Oxide, a unique and highly specialized chemical compound, stands as a testament to the advancements in scientific research and development. With its CAS number not readily available, this compound has captured the attention of researchers and scientists across various disciplines, from pharmaceutical development to material science innovations.
At the heart of Biperiden Epoxide N-Oxide lies a captivating molecular structure, characterized by its InChI code, InChI=1S/C21H29NO3/c23-21(16-7-3-1-4-8-16,9-12-22(24)10-5-2-6-11-22)18-14-15-13-17(18)20-19(15)25-20/h1,3-4,7-8,15,17-20,23H,2,5-6,9-14H2/t15-,17+,18+,19?,20?,21+/m1/s1, and its SMILES notation, [O-][N+]1(CC[C@](O)(c2ccccc2)[C@H]2C[C@H]3C[C@@H]2C2OC23)CCCCC1. This intricate molecular blueprint not only defines the compound's unique identity but also hints at its potential applications in the realms of pharmaceutical research and material science.
Biperiden Epoxide N-Oxide presents itself as a complex organic compound, with a molecular formula of C21H29NO3 and a molecular weight of 343.46 g/mol. Its InChI key, InChIKey=LMEHTUZVCAXJSX-YEUXVZOJSA-N, serves as a distinctive identifier, allowing researchers to easily access and cross-reference relevant information about this captivating molecule.
Despite the limited information available on its physical and chemical properties, Biperiden Epoxide N-Oxide has piqued the interest of scientists seeking to unlock its versatile potential. Its unique combination of functional groups, including the epoxide and N-oxide moieties, suggests intriguing possibilities for its application in various fields of study.
The versatility of Biperiden Epoxide N-Oxide lies in its ability to serve as a valuable building block in diverse scientific endeavors. In the realm of pharmaceutical research, this compound may find use as a starting material or intermediate in the synthesis of novel drug candidates, potentially targeting a wide range of therapeutic areas.
Beyond the pharmaceutical domain, Biperiden Epoxide N-Oxide's distinct chemical properties may also prove invaluable in the development of advanced materials. Researchers in material science may explore its integration into polymers, coatings, or other functional materials, leveraging its unique structural features to engineer substances with enhanced performance characteristics, such as improved thermal stability, mechanical strength, or optical properties.
As the scientific community continues to delve deeper into the intricacies of Biperiden Epoxide N-Oxide, new avenues of exploration and innovation are sure to emerge. The compound's potential as a versatile tool in the hands of skilled researchers and scientists holds the promise of groundbreaking discoveries and advancements across multiple disciplines.
Given the specialized nature of Biperiden Epoxide N-Oxide, it is essential to handle and store this compound with the utmost care and diligence. While specific hazard information is not readily available, it is crucial to adhere to standard laboratory safety protocols, including the use of personal protective equipment (PPE) and proper ventilation when working with this substance.
For optimal long-term storage, Biperiden Epoxide N-Oxide should be kept at a temperature of +5°C, as recommended by the manufacturer. This controlled environment will help maintain the compound's stability and purity, ensuring its reliable performance in various research and development applications.