Discover the versatility of 4-(1-Methylpyrazol-4-yl)aniline, a premium Building Block compound with a CAS number of 1079178-22-5. This high-purity chemical boasts a molecular weight of 173.21g/mol, offering a unique blend of reactivity and selectivity for your advanced research and synthesis needs. Carefully handled, it presents a clear path to unlocking new possibilities in the realm of pharmaceuticals, agrochemicals, and beyond. Embrace the precision and performance of this exceptional compound, and elevate your experiments to new heights of innovation.
Unlock the versatile potential of 4-(1-Methylpyrazol-4-yl)aniline, a meticulously crafted chemical compound that holds the key to unlocking new frontiers in scientific research and innovation. With its unique molecular structure and exceptional purity, this Pyrazole-based building block is poised to become an indispensable tool in the hands of researchers and chemists across diverse fields.
At the heart of this compound lies a captivating blend of chemical properties, making it a valuable asset in the realms of pharmaceutical development, agrochemical synthesis, and material science. Its CAS number, 1079178-22-5, serves as a distinct identifier, while the Ref # 54-OR480242 provides a convenient reference point for those seeking detailed information.
Delve into the technical specifications of this remarkable compound: its molecular formula, C10H12N3, and a molecular weight of 173.21g/mol, offer a glimpse into its intricate chemical composition. The MDL number, MFCD06797404, and the HS code, 2933199090, further categorize this compound, ensuring seamless integration into various research and development projects.
In the dynamic world of pharmaceutical research, 4-(1-Methylpyrazol-4-yl)aniline shines as a versatile building block, enabling the synthesis of innovative drug candidates. Its unique pyrazole-aniline scaffold serves as a foundation for the development of targeted therapies, addressing a wide spectrum of health conditions. Researchers can harness the compound's inherent reactivity and selectivity to unlock new possibilities in the quest for more effective and safer treatments.
The compound's potential extends beyond the pharmaceutical realm, as it also finds applications in the agrochemical industry. Its distinct molecular structure contributes to the formulation of advanced crop protection agents, helping to safeguard agricultural yields and promote sustainable farming practices. The integration of 4-(1-Methylpyrazol-4-yl)aniline into these specialized products can lead to enhanced efficacy, selectivity, and environmental compatibility.
Stepping into the realm of material science, 4-(1-Methylpyrazol-4-yl)aniline emerges as a versatile building block for the development of novel materials with tailored properties. Its unique chemical composition and reactivity allow researchers to explore the creation of advanced polymers, coatings, and other functional materials. These innovative materials can exhibit enhanced mechanical strength, thermal stability, or optical characteristics, opening up new avenues for technological advancements.
Handling and storage of this compound require careful consideration, as the hazard information (TBC) indicates the need for appropriate safety measures. Researchers are advised to consult relevant safety data sheets and guidelines to ensure the safe and effective use of 4-(1-Methylpyrazol-4-yl)aniline in their respective projects.
As you delve into the world of 4-(1-Methylpyrazol-4-yl)aniline, you'll discover a wealth of resources and support to guide your research and development endeavors. Explore the comprehensive product page, which offers detailed technical data, safety information, and a curated selection of relevant scientific literature. Unlock the full potential of this versatile compound and embark on a journey of groundbreaking discoveries in the realms of pharmaceuticals, agrochemicals, and material science.
Embrace the power of 4-(1-Methylpyrazol-4-yl)aniline and let it be the catalyst for your next innovative breakthrough. Its unique properties and diverse applications await your exploration, promising to elevate your research to new heights and drive the advancement of scientific knowledge.