1,3,3a,4,9,9a-Hexahydrothieno(3,4-b)quinoxaline 2,2-dioxide

Unlock the captivating world of 1,3,3a,4,9,9a-Hexahydrothieno(3,4-b)quinoxaline 2,2-dioxide, a versatile and highly specialized chemical compound that holds immense potential for scientific exploration. With its unique molecular structure and exceptional purity, this compound has garnered the attention of researchers and scientists across various disciplines, from pharmaceutical development to material science innovations.

Identified by its CAS number 56714-11-5 and Ref # 3D-GCA71411, this compound is a meticulously crafted Heterocyclic Compound that boasts a purity of at least 95%. Its molecular formula, C10H12N2O2S, and a molecular weight of 224.28 g/mol, make it a valuable asset in the pursuit of groundbreaking discoveries.
The compound's distinct chemical properties, including its thieno(3,4-b)quinoxaline core and 2,2-dioxide functionality, imbue it with a remarkable versatility that transcends traditional boundaries. Whether you're delving into the realm of pharmaceutical research, exploring the frontiers of agrochemical development, or pioneering new materials with enhanced performance, this compound can be the key to unlocking innovative solutions.

Pharmaceutical Research: Unlocking New Therapeutic Possibilities

In the dynamic field of pharmaceutical research, 1,3,3a,4,9,9a-Hexahydrothieno(3,4-b)quinoxaline 2,2-dioxide shines as a crucial building block for the synthesis of novel drug candidates. Its unique molecular structure allows researchers to explore uncharted territories, potentially leading to the development of targeted therapies for a wide range of health conditions. From neurological disorders to metabolic diseases, this compound's versatility empowers scientists to push the boundaries of pharmaceutical innovation.

Agrochemical Advancements: Cultivating a Greener Future

The agricultural sector also benefits from the exceptional properties of 1,3,3a,4,9,9a-Hexahydrothieno(3,4-b)quinoxaline 2,2-dioxide. As a key component in the synthesis of advanced crop protection agents, this compound contributes to the creation of potent and selective pesticides. By harnessing its unique chemical structure, researchers can develop sustainable solutions that safeguard crops, enhance yields, and minimize environmental impact, paving the way for a greener and more productive agricultural landscape.

Material Science Innovations: Unlocking New Frontiers

Beyond the realms of pharmaceuticals and agrochemicals, 1,3,3a,4,9,9a-Hexahydrothieno(3,4-b)quinoxaline 2,2-dioxide finds its place in the exciting world of material science. Its versatile properties make it a valuable tool for researchers seeking to engineer novel materials with enhanced performance characteristics. From improved mechanical strength and thermal stability to tailored optical properties, this compound's integration into cutting-edge materials can lead to groundbreaking advancements that transform industries and shape the future.

Handling and Storage: Ensuring Optimal Integrity

To maintain the exceptional quality and purity of 1,3,3a,4,9,9a-Hexahydrothieno(3,4-b)quinoxaline 2,2-dioxide, it is essential to adhere to proper handling and storage protocols. The compound should be kept in a cool, well-ventilated area, protected from moisture and other environmental factors that could compromise its stability and performance. By following these guidelines, researchers can ensure the long-term integrity of this valuable chemical asset, unlocking its full potential in their scientific endeavors.

Unlock the Possibilities: Explore the Versatility of 1,3,3a,4,9,9a-Hexahydrothieno(3,4-b)quinoxaline