Rhetsinine

Rhetsinine, a captivating botanical compound with the CAS number 526-43-2, is a treasure trove of potential for researchers and scientists across diverse fields. Derived from the trunk bark of Zanthoxylum rhetsa and the fruits of Evodia, this alkaloid offers a unique blend of chemical properties that unlock a world of possibilities.

At a purity range of 95% to 99%, Rhetsinine stands as a testament to the meticulous care and attention to detail that goes into its production. Its molecular formula, C19H17N3O2, and a molecular weight of 319.364 g/mol, lend it a distinct chemical profile that has captured the interest of those seeking to push the boundaries of scientific discovery.

The versatility of Rhetsinine is truly remarkable, as it finds applications in a wide array of domains. From the realm of pharmaceutical research to the innovative world of agrochemicals, this botanical compound has the potential to unlock new frontiers in the development of cutting-edge solutions.

Pharmaceutical Research: Unlocking New Therapeutic Avenues

In the ever-evolving landscape of pharmaceutical research, Rhetsinine emerges as a valuable asset. Its unique chemical structure and properties make it a compelling candidate for the synthesis of novel drug compounds, targeting a diverse range of health conditions. Researchers can harness the power of Rhetsinine to explore new therapeutic pathways, potentially leading to the development of more effective and targeted treatments.

The compound's versatility extends beyond its pharmaceutical applications, as it also finds a place in the realm of agrochemical innovation. Its botanical origins and distinct chemical profile lend themselves to the creation of advanced crop protection agents, helping to safeguard agricultural yields and promote sustainable farming practices.

Agrochemical Innovation: Cultivating a Greener Future

In the pursuit of a more sustainable and eco-friendly future, Rhetsinine shines as a beacon of hope. Its integration into the development of agrochemicals can contribute to the formulation of potent yet selective pesticides, herbicides, and other crop-enhancing agents. By leveraging the unique properties of this botanical compound, researchers can develop solutions that not only protect crops but also minimize environmental impact, paving the way for a greener and more prosperous agricultural landscape.

Beyond its pharmaceutical and agrochemical applications, Rhetsinine's versatility extends to the realm of chemical synthesis. Its distinct molecular structure and reactivity make it a valuable tool in the hands of chemists, enabling the creation of novel compounds with tailored properties and functionalities.

Chemical Synthesis: Unlocking New Molecular Possibilities

In the dynamic world of chemical synthesis, Rhetsinine shines as a versatile and powerful building block. Its unique chemical profile allows researchers to explore new avenues of molecular design, unlocking the potential for the creation of innovative materials, compounds, and substances with enhanced performance characteristics. Whether it's improving thermal stability, increasing reactivity, or enhancing selectivity, Rhetsinine's adaptability makes it a valuable asset in the pursuit of groundbreaking discoveries.

As you delve into the world of Rhetsinine, you'll find a wealth of resources and support to guide your research and development efforts. From detailed technical data to safety guidelines, the information available will empower you to harness the full potential of this captivating botanical compound. Embrace the opportunities that Rhetsinine presents, and embark on a journey of scientific exploration that could lead to transformative breakthroughs in your field.

Product Specifications

• CAS Number: 526-43-2
• Name: Rhetsinine
• Reference Number: BP-BP0745
• Purity: 95% to 99%
• Molecular Formula: C19H17N3O2
• Molecular Weight: 319.364 g/mol
• Botanical Source: Alkaloid from the trunk