Bisbenzimidazole is a compound that has found applications in various industries, including healthcare, agriculture, and materials science. In everyday life, Bisbenzimidazole is commonly used as a key ingredient in sunscreens for its UV-absorbing properties, offering protection against harmful sun rays. Additionally, Bisbenzimidazole is utilized in some hair products to protect against damage caused by UV radiation and free radicals. Its versatility and efficacy make it a valuable component in products that help safeguard health and enhance personal care routines.
Table of Contents:
- 💡 Commercial Applications
- ⚗️ Chemical & Physical Properties
- 🏭 Production & Procurement
- ⚠️ Safety Considerations
- 🔬 Potential Research Directions
- 🧪 Related Compounds
💡 Commercial Applications
Bisbenzimidazole is a versatile compound with various commercial and industrial applications. It is commonly used as a photoinitiator in the production of coatings, adhesives, and inks. Additionally, bisbenzimidazole is utilized in the manufacturing of polymers, where it acts as a stabilizer against UV radiation and heat degradation.
In the realm of drug and medication applications, bisbenzimidazole plays a crucial role as an anti-parasitic agent. Its efficacy against various parasites, such as Helicobacter pylori, has made it a valuable component in the treatment of ulcers and gastrointestinal infections. Moreover, bisbenzimidazole exhibits promising anti-cancer properties, with ongoing research exploring its potential in chemotherapy and targeted therapy.
Overall, the multifaceted properties of bisbenzimidazole make it an invaluable compound with diverse applications across various industries. Its versatility in commercial production, coupled with its therapeutic potential in the field of medicine, highlights the significance of this compound in both scientific research and practical applications.
⚗️ Chemical & Physical Properties
Bisbenzimidazole is a white crystalline solid with no distinctive odor. It is a synthetic compound that is commonly used in research and industrial applications due to its unique properties.
With a molar mass of approximately 292 g/mol and a density of around 1.3 g/cm^3, Bisbenzimidazole is heavier than most common food items. For comparison, the molar mass of glucose is around 180 g/mol, and the density of water is approximately 1 g/cm^3.
Bisbenzimidazole has a melting point of about 290°C and a boiling point of approximately 550°C. These values are significantly higher than those of most common food items. For example, the melting point of butter is around 32-35°C, and the boiling point of water is 100°C.
In terms of solubility in water, Bisbenzimidazole is sparingly soluble, and it exhibits high viscosity in solution. This differs from common food items like sugar, which are highly soluble in water and have low viscosity. Bisbenzimidazole’s solubility in water and viscosity make it suitable for certain industrial applications where these properties are advantageous.
🏭 Production & Procurement
Bisbenzimidazole is a compound with various applications in the pharmaceutical and chemical industries. It is typically produced through a multi-step synthesis process involving the condensation of o-phenylenediamine with a suitable aldehyde or ketone. This reaction yields a bisbenzimidazole derivative, which can then be further modified to obtain the desired product.
In the procurement of Bisbenzimidazole, it can be purchased from chemical suppliers who specialize in providing fine chemicals to industries. The compound is typically supplied in solid form, which may vary in color depending on the specific synthesis method used. Bisbenzimidazole can be transported in standard chemical containers, following all necessary safety regulations for handling hazardous materials.
Transportation of Bisbenzimidazole may involve various modes such as road, rail, air, or sea, depending on the distance of the supplier’s location from the consumer. Proper packaging and labeling are crucial to ensure safe transportation and compliance with regulations governing the transport of hazardous chemicals. It is essential for buyers to work closely with suppliers to coordinate the logistics of procuring and transporting Bisbenzimidazole efficiently.
⚠️ Safety Considerations
Safety considerations for Bisbenzimidazole include potential hazards such as skin irritation, eye irritation, respiratory irritation, and allergic reactions. It is important to handle this substance with care and wear appropriate personal protective equipment, such as gloves and safety goggles, when working with it. Additionally, Bisbenzimidazole should be stored in a well-ventilated area away from incompatible materials to prevent any potential chemical reactions.
Hazard statements for Bisbenzimidazole include “Causes skin irritation,” “Causes serious eye irritation,” and “May cause respiratory irritation.” These statements highlight the potential dangers associated with exposure to this chemical compound and emphasize the importance of taking necessary precautions to minimize the risk of harm. It is essential to heed these hazard statements and follow safety guidelines when handling Bisbenzimidazole to prevent any adverse health effects.
Precautionary statements for Bisbenzimidazole recommend wearing protective gloves, protective clothing, eye protection, and face protection when working with this substance. It is also advised to avoid breathing in dust, mist, or vapor and to wash hands thoroughly after handling. In case of skin irritation or rash, medical advice should be sought immediately. By following these precautionary statements, individuals can minimize the risk of exposure and potential harm when working with Bisbenzimidazole.
🔬 Potential Research Directions
One potential research direction for bisbenzimidazole is its use as a DNA-binding agent in cancer therapy, exploring its potential as a therapeutic agent in inhibiting DNA replication and transcription. Another avenue of research could involve investigating the interactions of bisbenzimidazole with other biological molecules, such as proteins, to elucidate potential applications in drug delivery or targeting specific cellular pathways.
Additionally, research could focus on the development of new derivatives of bisbenzimidazole with enhanced biological activity or improved pharmacokinetic properties for potential clinical applications. Furthermore, studies could be conducted to investigate the mechanisms of action of bisbenzimidazole in cellular processes, such as apoptosis or cell cycle arrest, to better understand its potential therapeutic effects and optimize its use in medicine.
Moreover, research could explore the potential of bisbenzimidazole as a fluorescent probe for bioimaging applications or in the development of biosensors for detecting specific biomolecules. Investigations into the biophysical and chemical properties of bisbenzimidazole could also lead to a better understanding of its structure-activity relationships and potential applications in various fields of science and technology.
🧪 Related Compounds
One similar compound to Bisbenzimidazole based upon molecular structure is Benzimidazole. Benzimidazole is a bicyclic compound with a fused benzene and imidazole ring system. The benzene ring is attached to the imidazole ring, making it structurally similar to Bisbenzimidazole.
Another similar compound is Nigellidine, a natural alkaloid isolated from the seeds of Nigella sativa. Nigellidine contains a benzimidazole core structure, similar to Bisbenzimidazole. This compound has been studied for its potential pharmacological properties.
Additionally, Benzotetrazole is structurally related to Bisbenzimidazole. Benzotetrazole is a five-membered heterocyclic compound containing four nitrogen atoms and one carbon atom. The presence of a tetrazole ring instead of an imidazole ring distinguishes it from Bisbenzimidazole.