CID 4752, also known as a chemical compound with a specific family name containing a unique molecular structure, may appear abstract or distant from everyday life. However, this particular chemical compound holds significance for various industries and applications that indirectly impact individuals’ daily experiences. For instance, CID 4752 could be a key component in the production of household goods, pharmaceuticals, or technological devices that individuals use regularly. Thus, while the compound itself may not be immediately recognizable, its presence and utilization in broader industrial contexts contribute to the fabric of modern life.
Table of Contents:
- 💡 Commercial Applications
- ⚗️ Chemical & Physical Properties
- 🏭 Production & Procurement
- ⚠️ Safety Considerations
- 🔬 Potential Research Directions
- 🧪 Related Compounds
💡 Commercial Applications
CID 4752, also known as 1-Phenyl-2,3-dimethyl-4-aminopyrazolone, is commonly used in commercial and industrial applications. This compound is often utilized in the production of dyes and pigments due to its ability to interact with various colorants and form stable complexes. Additionally, CID 4752 is commonly employed in analytical chemistry as a reagent for detecting metal ions through the formation of colored complexes.
In terms of drug and medication applications, CID 4752 is not commonly utilized for pharmaceutical purposes. While this compound may exhibit certain pharmacological properties, such as antioxidant or anti-inflammatory effects, it is not commonly used in the development of drugs or medications for human consumption. Instead, CID 4752 primarily finds its applications in the industrial and commercial sectors, where its chemical properties are leveraged for various processes and products.
⚗️ Chemical & Physical Properties
CID 4752 is a white crystalline solid with a faint, characteristic odor. The appearance of CID 4752 is similar to powdered sugar, and its odor is barely detectable to the human nose.
The molar mass of CID 4752 is 122.12 g/mol, and its density is 1.17 g/cm³. In comparison to common food items, CID 4752 has a higher molar mass than glucose (180.16 g/mol) and a lower density than olive oil (0.92 g/cm³).
CID 4752 has a melting point of 185-187°C and a boiling point of 428°C. These values are significantly higher than those of common food items such as sugar (melting point: 186°C) and water (boiling point: 100°C).
CID 4752 is sparingly soluble in water and has a low viscosity. In contrast, common food items like salt and sugar are highly soluble in water, and honey has a high viscosity.
🏭 Production & Procurement
CID 4752 is produced through a meticulous chemical synthesis process in specialized laboratories. Precise measurements of raw materials are combined under controlled conditions to create the final compound.
Procurement of CID 4752 involves obtaining the necessary licenses and permits to handle and transport such controlled substances. The compound can be sourced from authorized suppliers with proper documentation and certification of its purity.
Transportation of CID 4752 requires adherence to strict guidelines for handling hazardous materials. Proper packaging, labeling, and documentation are essential to ensure compliance with safety regulations during transit. Specialized carriers trained in chemical transport may be utilized for secure delivery.
⚠️ Safety Considerations
Safety considerations for CID 4752, also known as the compound’s safety data sheet, should be carefully reviewed before handling or using the substance. It is important to be aware of any potential hazards associated with CID 4752, as well as the necessary precautions to mitigate these risks. Proper personal protective equipment (PPE) should be worn when working with CID 4752, and all relevant safety procedures should be followed to minimize the likelihood of accidents or exposure.
Hazard statements for CID 4752 typically include information about the potential risks and dangers associated with the compound. These statements may indicate that CID 4752 is flammable, toxic if inhaled or swallowed, or may cause skin irritation upon contact. It is important to be aware of these hazard statements in order to handle CID 4752 safely and take appropriate precautions to avoid potential harm.
Precautionary statements for CID 4752 may include recommendations for safe handling, storage, and disposal of the compound. These statements may also outline the necessary PPE to be worn when working with CID 4752, as well as procedures for responding to accidents or spills involving the substance. It is important to follow these precautionary statements carefully to ensure the safe handling of CID 4752 and to minimize the risk of exposure or injury.
🔬 Potential Research Directions
One potential research direction for CID 4752 could involve investigating its mechanism of action at a molecular level. This could involve studying its interaction with specific cellular targets to better understand how it exerts its biological effects.
Another avenue of research could focus on exploring potential therapeutic applications of CID 4752. This could involve testing its efficacy in preclinical models of disease to assess its potential as a drug candidate for various conditions.
Additionally, researchers could investigate the pharmacokinetics and pharmacodynamics of CID 4752 to optimize dosing regimens and maximize its therapeutic potential. This could involve studying its absorption, distribution, metabolism, and excretion in preclinical models to inform future clinical trials.
Further research could also explore potential side effects or toxicity associated with CID 4752 to ensure its safety profile for potential clinical use. This could involve conducting toxicology studies to assess its impact on various organs and systems in the body.
🧪 Related Compounds
One similar compound to CID 4752 based on its molecular structure is CID 5236. This compound shares a similar chemical backbone with CID 4752, differing only in specific functional groups attached to the central structure. CID 5236 may exhibit similar biological activities or properties as CID 4752 due to their structural resemblance.
Another compound closely related to CID 4752 is CID 6900. Despite minor differences in their chemical structures, CID 6900 shares a comparable molecular framework with CID 4752. This similarity in structure suggests that CID 6900 may interact with biological targets in a manner akin to CID 4752, potentially showing analogous effects or properties.
A further compound with a resemblance to CID 4752 is CID 8143. This compound displays a related structural motif to CID 4752, with variations in substituents or side chains attached to the core scaffold. The structural likeness between CID 8143 and CID 4752 implies the possibility of similar biological activities or functions for both compounds, as their molecular structures dictate their interactions with target molecules.
