2,2′-Bioxirane is a chemical compound that has found use in various industries, including pharmaceuticals, agriculture, and materials science. In everyday life, this compound plays a significant role in the development of new drugs, pesticides, and advanced materials. Specifically, its unique structure and reactivity make it a valuable building block for creating molecules with desirable properties for a wide range of applications. As such, the continued research and application of 2,2′-Bioxirane contribute to advancements in healthcare, food production, and technology that impact our daily lives.
Table of Contents:
- 💡 Commercial Applications
- ⚗️ Chemical & Physical Properties
- 🏭 Production & Procurement
- ⚠️ Safety Considerations
- 🔬 Potential Research Directions
- 🧪 Related Compounds
💡 Commercial Applications
2,2′-Bioxirane, a compound with unique chemical properties, has found applications in various commercial and industrial settings. It is commonly used as a cross-linking agent in the production of polymers, adhesives, and coatings due to its ability to improve the mechanical strength and thermal stability of these materials. Additionally, 2,2′-Bioxirane is utilized as a reactive intermediate in the synthesis of specialty chemicals and pharmaceuticals, further highlighting its significance in the chemical industry.
In the realm of drug and medication applications, 2,2′-Bioxirane has shown promise as a potential therapeutic agent. Research suggests that its ability to form stable covalent adducts with biomolecules could be leveraged in targeted drug delivery systems. Moreover, the well-defined reactivity of 2,2′-Bioxirane makes it a valuable tool for the modification of pharmaceutical compounds, thereby enhancing their bioavailability and efficacy. While further studies are needed to fully explore its medicinal potential, the versatility of 2,2′-Bioxirane continues to drive interest in its pharmaceutical applications.
⚗️ Chemical & Physical Properties
2,2′-Bioxirane is a colorless liquid with a faint odor at room temperature. It has a chemical structure resembling a cyclic organic compound, often used in industrial applications.
The molar mass of 2,2′-Bioxirane is approximately 88.09 g/mol, with a density of about 1.12 g/cm³. Comparatively, common food items such as sugar and salt have molar masses ranging from 342.3 g/mol to 58.44 g/mol, and densities between 1.59 g/cm³ to 2.16 g/cm³.
2,2′-Bioxirane has melting and boiling points of approximately -46°C and 150.9°C, respectively. In contrast, common food items like butter and chocolate have melting points ranging from 32°C to 35°C, and boiling points higher than 100°C due to their complex compositions.
2,2′-Bioxirane is sparingly soluble in water, with low viscosity. Compared to common food items like honey and vegetable oil, which have high solubility in water and higher viscosity levels, 2,2′-Bioxirane exhibits different chemical and physical properties in aqueous solutions.
🏭 Production & Procurement
2,2′-Bioxirane is produced through a chemical reaction between paraformaldehyde and ethylene oxide in the presence of a catalyst. This reaction forms a cyclic compound known as 2,2′-Bioxirane, which is a versatile compound used in various industrial applications.
2,2′-Bioxirane can be procured from chemical suppliers who specialize in producing specialty chemicals. It is typically available in liquid form or as a solid powder, depending on the supplier and the intended application. Transportation of 2,2′-Bioxirane is usually done in sealed containers to prevent leakage and ensure product integrity during transit.
Once procured, 2,2′-Bioxirane can be transported via various methods such as road, rail, or air, depending on the volume and distance to be covered. Proper handling and storage procedures should be followed to maintain the stability of the compound and prevent any accidents or contamination. It is essential to adhere to safety regulations and guidelines when handling and transporting 2,2′-Bioxirane to ensure the well-being of individuals involved in the process.
⚠️ Safety Considerations
Safety considerations for 2,2′-Bioxirane, also known as dioxirane, must be taken into account due to its potential hazards. This compound is classified as a mutagen and a carcinogen, meaning it has the ability to cause genetic mutations and increase the risk of cancer. Additionally, 2,2′-Bioxirane can be harmful if inhaled, causing respiratory irritation and damage to the lungs.
Hazard statements for 2,2′-Bioxirane include “Causes damage to organs through prolonged or repeated exposure,” “Suspected of causing cancer,” and “May cause genetic defects.” These statements highlight the serious health risks associated with this compound and underscore the importance of handling it with caution and following proper safety protocols.
Precautionary statements for 2,2′-Bioxirane include “Wear protective gloves/eye protection/face protection” and “Use only outdoors or in a well-ventilated area.” These statements emphasize the importance of using personal protective equipment and working in a well-ventilated environment to minimize the risk of exposure to this hazardous compound. It is essential to follow these precautions to ensure the safety of those handling 2,2′-Bioxirane and to prevent potential health risks.
🔬 Potential Research Directions
Potential research directions for 2,2′-Bioxirane include exploring its applications in organic synthesis as a chiral building block due to its unique stereochemistry and reactivity.
Studies could focus on investigating the reactivity of 2,2′-Bioxirane with various nucleophiles to synthesize new compounds with potential pharmaceutical or industrial uses.
Furthermore, research could delve into the mechanisms of the reactions involving 2,2′-Bioxirane to deepen the understanding of its behavior and potentially discover new reaction pathways.
🧪 Related Compounds
One similar compound to 2,2′-Bioxirane is 1,3-Dioxolane. This compound has a similar molecular structure to 2,2′-Bioxirane, with a three-membered ring containing two oxygen atoms. 1,3-Dioxolane is commonly used as a solvent and in the synthesis of organic compounds due to its stability and reactivity.
Another compound similar to 2,2′-Bioxirane is Ethylene oxide. This compound also has a three-membered ring structure containing two oxygen atoms, similar to 2,2′-Bioxirane. Ethylene oxide is used extensively in the production of detergents, solvents, antifreeze, and as a sterilizing agent due to its high reactivity and small molecular size.
A further similar compound to 2,2′-Bioxirane is Epichlorohydrin. This compound contains a three-membered ring with an oxygen and chlorine atom, similar to the structure of 2,2′-Bioxirane. Epichlorohydrin is used in the production of plastics, resins, and as a solvent due to its reactivity and ability to form cross-linked polymers.
