The Chemical Properties and Applications of Nor Acetildenafil
Nor Acetildenafil, identified by its CAS number 949091-38-7, is a chemical compound that plays a crucial role in various scientific and industrial applications, particularly within the pharmaceutical sector. Understanding its chemical properties and how they translate into practical applications is key to appreciating its value.
Chemically, Nor Acetildenafil is recognized as a derivative of Acetildenafil, functioning as a synthesis materials intermediate and a pharmaceutical raw intermediate. Its molecular formula is C24H32N6O3, with a molecular weight of 452.55 g/mol. These fundamental properties define its behavior in chemical reactions and its potential interactions. As a solid substance, it typically appears as a white to pale beige powder or crystalline material. The reported melting point range of 135-139°C (with decomposition) is a significant characteristic, indicating its thermal stability under specific conditions and serving as a key identifier for quality control.
The applications of Nor Acetildenafil are primarily centered around its role as a building block in chemical synthesis. In the pharmaceutical industry, it is used as a pharmaceutical raw intermediate, meaning it is a precursor used in the manufacturing process of APIs. This makes it an essential component for research and development, allowing chemists to construct more complex molecules. Its structural similarity to Acetildenafil also positions it as a valuable tool for synthesizing analogues, which is a common practice in drug discovery to identify compounds with improved pharmacological profiles.
The compound's utility extends to broader chemical research, where it can be employed in various organic synthesis reactions. Whether for academic research, early-stage drug discovery, or the development of specialty chemicals, Nor Acetildenafil provides a reliable starting material. The typical purity level of 97% minimum ensures that it is suitable for most demanding applications where precise chemical structures are required. Its availability from chemical suppliers globally, including manufacturers in China, makes it accessible for a wide range of research and development projects.
In conclusion, the chemical properties of Nor Acetildenafil, such as its structure, purity, and melting point, underpin its broad applicability. As a versatile synthesis materials intermediate and a critical pharmaceutical raw intermediate, it continues to be an important compound for advancements in chemical science and pharmaceutical development.
Chemically, Nor Acetildenafil is recognized as a derivative of Acetildenafil, functioning as a synthesis materials intermediate and a pharmaceutical raw intermediate. Its molecular formula is C24H32N6O3, with a molecular weight of 452.55 g/mol. These fundamental properties define its behavior in chemical reactions and its potential interactions. As a solid substance, it typically appears as a white to pale beige powder or crystalline material. The reported melting point range of 135-139°C (with decomposition) is a significant characteristic, indicating its thermal stability under specific conditions and serving as a key identifier for quality control.
The applications of Nor Acetildenafil are primarily centered around its role as a building block in chemical synthesis. In the pharmaceutical industry, it is used as a pharmaceutical raw intermediate, meaning it is a precursor used in the manufacturing process of APIs. This makes it an essential component for research and development, allowing chemists to construct more complex molecules. Its structural similarity to Acetildenafil also positions it as a valuable tool for synthesizing analogues, which is a common practice in drug discovery to identify compounds with improved pharmacological profiles.
The compound's utility extends to broader chemical research, where it can be employed in various organic synthesis reactions. Whether for academic research, early-stage drug discovery, or the development of specialty chemicals, Nor Acetildenafil provides a reliable starting material. The typical purity level of 97% minimum ensures that it is suitable for most demanding applications where precise chemical structures are required. Its availability from chemical suppliers globally, including manufacturers in China, makes it accessible for a wide range of research and development projects.
In conclusion, the chemical properties of Nor Acetildenafil, such as its structure, purity, and melting point, underpin its broad applicability. As a versatile synthesis materials intermediate and a critical pharmaceutical raw intermediate, it continues to be an important compound for advancements in chemical science and pharmaceutical development.
Perspectives & Insights
Molecule Vision 7
“These fundamental properties define its behavior in chemical reactions and its potential interactions.”
Alpha Origin 24
“As a solid substance, it typically appears as a white to pale beige powder or crystalline material.”
Future Analyst X
“The reported melting point range of 135-139°C (with decomposition) is a significant characteristic, indicating its thermal stability under specific conditions and serving as a key identifier for quality control.”