Discover the exceptional quality of 4-[(aRaS)-1-Methylpiperidin-4-ylidene]-4,9-dihydro-10H-benzo[4,5]cyclo-hepta[1,2-b]thiophen-10-one N-Oxide (Ketotifen N-Oxide), a versatile chemical compound with a unique molecular structure. Boasting a CAS number of 88456-70-6 and a molecular weight of 325.42g/mol, this high-purity compound offers a wealth of possibilities for your research and development needs. Crafted with precision, it features an InChI key of FDAHLWKMNJCURA-AQTBWJFISA-N, ensuring consistent performance and reliable results. Explore the boundless potential of this exceptional chemical, and elevate your experiments to new heights of success.
Introducing 4-[(aRaS)-1-Methylpiperidin-4-ylidene]-4,9-dihydro-10H-benzo[4,5]cyclo-hepta[1,2-b]thiophen-10-one N-Oxide, a highly specialized and meticulously crafted chemical compound that holds immense potential for researchers and scientists across various fields. This captivating molecule, also known as Ketotifen N-Oxide, boasts a unique structure and a wealth of applications that are poised to unlock new frontiers in scientific discovery.
At the heart of this compound lies a complex and intriguing molecular architecture, featuring a benzo[4,5]cyclo-hepta[1,2-b]thiophene core with a methylpiperidin-4-ylidene moiety and an N-oxide group. This intricate design, represented by the CAS number 88456-70-6, endows Ketotifen N-Oxide with a remarkable set of properties that make it a valuable asset in the realms of pharmaceutical research, chemical synthesis, and beyond.
Ketotifen N-Oxide's versatile structure and unique chemical characteristics position it as a highly sought-after compound in the pharmaceutical industry. Its potential applications span a wide range of therapeutic areas, from neurological disorders to metabolic conditions. Researchers can leverage this compound as a crucial building block in the synthesis of innovative drug candidates, unlocking new avenues for the development of more effective and targeted treatments.
The N-oxide functionality of Ketotifen N-Oxide introduces an additional layer of complexity, potentially enhancing its pharmacological profile and opening up new possibilities for drug discovery. By carefully manipulating and optimizing the compound's structure, scientists can explore its ability to modulate specific biological pathways, leading to the creation of novel therapeutics with improved efficacy and safety.
Beyond the pharmaceutical realm, Ketotifen N-Oxide's versatility extends to the realm of chemical synthesis. Its distinct molecular architecture, with the combination of the benzo[4,5]cyclo-hepta[1,2-b]thiophene core and the methylpiperidin-4-ylidene moiety, makes it a valuable reagent and starting material for the development of a wide range of novel compounds.
Researchers in the fields of material science, agrochemicals, and beyond can harness the unique properties of Ketotifen N-Oxide to engineer innovative materials, formulate advanced crop protection agents, and explore new avenues of chemical exploration. The compound's ability to participate in selective and controlled reactions opens up a world of possibilities for chemists seeking to push the boundaries of scientific discovery.
Ketotifen N-Oxide, with its CAS number 88456-70-6 and Ref # 86-MM0180.07, is a meticulously synthesized and purified compound. Its chemical formula, C19H19NO2S, and a molecular weight of 325.42 g/mol, ensure a high level of purity and consistency.
To maintain the integrity and stability of this compound, it is recommended to store it at a temperature of +5°C, as indicated by the long-term storage conditions. Proper handling and storage protocols are crucial to preserve the compound's exceptional quality and ensure its optimal performance in various applications.
For detailed information on the technical specifications, safety guidelines, and potential applications of Ketotifen N-Oxide, please refer to the comprehensive resources available. These resources, including product data sheets and scientific literature, will provide you with the necessary information to fully harness the potential of this remarkable chemical compound.