Efficient Synthesis of 2-Butyl-4-Chloro-1-Imidazole-5-Carboxylic Acid for Advanced Chemical Applications

2025-3-21

Efficient Synthesis of 2-Butyl-4-Chloro-1-Imidazole-5-Carboxylic Acid for Advanced Chemical Applications

This comprehensive guide aims to provide an in-depth understanding of the efficient synthesis of 2-Butyl-4-Chloro-1-Imidazole-5-Carboxylic Acid (BCIC) and its applications in advanced chemical fields. The article will cover various aspects such as product parameters, usage scenarios, case studies, solutions, expert guidance, and FAQs to ensure a comprehensive understanding of the subject.

Abstract

This article provides a detailed overview of the efficient synthesis of 2-Butyl-4-Chloro-1-Imidazole-5-Carboxylic Acid (BCIC) and its applications in advanced chemical fields. It covers product parameters, usage scenarios, case studies, solutions, expert guidance, and FAQs to help readers gain a comprehensive understanding of BCIC and its potential in the chemical industry.

Product Parameters

BCIC is a white crystalline solid with a melting point of 246-248°C. It is soluble in water, alcohol, and ether. The molecular formula of BCIC is C₇H₉ClN₂O₂, and its molecular weight is 197.65 g/mol. The following table provides a detailed overview of the product parameters:

Parameter	Value
Molecular Formula	C₇H₉ClN₂O₂
Molecular Weight	197.65 g/mol
Melting Point	246-248°C
Solubility	Water, alcohol, ether

Usage Scenarios

BCIC is widely used in the synthesis of pharmaceuticals, agrochemicals, and fine chemicals. It is an important intermediate in the production of antiviral drugs, antibiotics, and herbicides. The following are some common usage scenarios:

Production of antiviral drugs: BCIC is used as an intermediate in the synthesis of antiviral drugs such as acyclovir and valacyclovir.
Production of antibiotics: BCIC is used in the synthesis of antibiotics such as ciprofloxacin and norfloxacin.
Production of herbicides: BCIC is used in the synthesis of herbicides such as glyphosate and glufosinate.

Case Studies

Here are two case studies showcasing the use of BCIC in the chemical industry:

Case Study 1: Synthesis of Acyclovir
Case Study 2: Synthesis of Ciprofloxacin

Solutions

Efficient synthesis of BCIC is crucial for its applications in advanced chemical fields. The following solutions can be adopted to ensure the efficient production of BCIC:

Optimization of reaction conditions: Proper selection of reaction temperature, pressure, and catalysts can enhance the yield and purity of BCIC.
Use of green chemistry principles: Implementing green chemistry principles can minimize the environmental impact of the synthesis process.
Continuous process development: Continuous process development can improve the efficiency and scalability of BCIC production.

Expert Guidance

Expert guidance is essential for the successful synthesis and application of BCIC. The following expert recommendations can be considered:

Consultation with experienced chemists and engineers to optimize the synthesis process.
Regular monitoring of the synthesis process to ensure product quality and safety.
Staying updated with the latest research and development in the field of BCIC synthesis and applications.

FAQs

Here are some frequently asked questions about BCIC:

Q: What is the melting point of BCIC?
A: The melting point of BCIC is 246-248°C.
Q: Is BCIC soluble in water?
A: Yes, BCIC is soluble in water.
Q: What are the main applications of BCIC?
A: BCIC is used in the synthesis of antiviral drugs, antibiotics, and herbicides.

Conclusion

This article has provided a comprehensive overview of the efficient synthesis of 2-Butyl-4-Chloro-1-Imidazole-5-Carboxylic Acid (BCIC) and its applications in advanced chemical fields. By understanding the product parameters, usage scenarios, case studies, solutions, expert guidance, and FAQs, readers can gain a better understanding of BCIC and its potential in the chemical industry.

Keywords

2-Butyl-4-Chloro-1-Imidazole-5-Carboxylic Acid, BCIC, synthesis, applications, pharmaceuticals, agrochemicals, fine chemicals, antiviral drugs, antibiotics, herbicides.