5-Nitro-2,3-dihydrophthalazine-1,4-dione: A Versatile Compound for Diverse Applications

Introducing 5-Nitro-2,3-dihydrophthalazine-1,4-dione, a highly pure and specialized chemical compound that holds immense potential across various scientific domains. With its unique structural features and exceptional purity, this compound has become a valuable asset for researchers and scientists seeking to unlock new possibilities in their respective fields.

Identified by its CAS number 3682-15-3, this Phthalazine and Impurities derivative boasts a molecular formula of C8H5N3O3 and a molecular weight of 207.14 g/mol. Its distinct combination of a nitro group, a dihydrophthalazine core, and a dione moiety endows it with a unique chemical profile, making it a versatile tool for a wide range of applications.

Pharmaceutical Research and Development

In the realm of pharmaceutical research, 5-Nitro-2,3-dihydrophthalazine-1,4-dione shines as a crucial building block in the synthesis of innovative drug candidates. Its distinct structural elements can be leveraged to develop compounds with improved pharmacological properties, targeting a diverse array of health conditions. Researchers in this field can harness the compound's potential to explore new therapeutic avenues and push the boundaries of modern medicine.

The compound's purity of 95.0% ensures reliable and consistent results in experimental settings, allowing scientists to have confidence in their research findings. Its InChIKey, YVOBBFQJMOGQOU-UHFFFAOYSA-N, provides a unique identifier for easy reference and integration into various databases and research platforms.

Agrochemical Innovations

Beyond the pharmaceutical industry, 5-Nitro-2,3-dihydrophthalazine-1,4-dione also finds applications in the agrochemical sector. Its distinct chemical structure can contribute to the development of advanced crop protection agents, such as potent and selective pesticides. By leveraging the compound's unique properties, researchers can formulate agrochemicals that promote healthier crops, higher yields, and more sustainable agricultural practices.

The compound's versatility extends to its potential use as a starting material or key intermediate in the synthesis of novel agrochemical compounds. Its integration into these innovative products can lead to enhanced efficacy, specificity, and environmental compatibility, ultimately benefiting both farmers and the ecosystem.

Chemical Synthesis and Material Science

Beyond its pharmaceutical and agrochemical applications, 5-Nitro-2,3-dihydrophthalazine-1,4-dione also serves as a valuable tool in the realm of chemical synthesis and material science. Its unique structural features and chemical reactivity make it a valuable reagent in the creation of new compounds and materials with tailored properties.

Researchers in material science can explore the integration of this compound into various formulations, potentially leading to the development of advanced materials with enhanced performance characteristics, such as improved thermal stability, mechanical strength, or optical properties. The compound's versatility opens up a world of possibilities for innovative applications across diverse industries.

Safety and Handling

While 5-Nitro-2,3-dihydrophthalazine-1,4-dione is a valuable compound, it is important to handle it with care and adhere to appropriate safety protocols. The compound is classified under hazard class 14.1.5 and carries several hazard statements, including H302 (Harmful if swallowed), H315 (Causes skin irritation), H319 (Causes serious eye irritation), H332 (Harmful if inhaled), and H335 (May cause respiratory irritation).

When working with this compound, it is essential to wear protective gloves, clothing, eye protection, and a face mask, and to ensure adequate ventilation. Avoid breathing in the dust, fumes, gas, mist, vapors, or spray. In case of accidental exposure, follow the appropriate first aid measures and seek medical attention if necessary.

Long-Term