Efficient Solution for 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine Synthesis

2025-3-21

Efficient Solution for 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine Synthesis: A Comprehensive Guide

This article provides a detailed guide on the synthesis of 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine, a compound with significant applications in various industries. By analyzing user search intent on Google, we have crafted a comprehensive solution guide that covers product parameters, usage scenarios, case studies, solutions, expert guidance, and FAQs. This guide aims to assist users in understanding the synthesis process and its applications.

Abstract

This article presents an in-depth analysis of the synthesis of 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine, a compound with diverse applications. By addressing user search intent on Google, we provide a comprehensive guide that covers product parameters, usage scenarios, case studies, solutions, expert guidance, and FAQs. This guide aims to assist users in understanding the synthesis process and its applications.

1. Product Parameters

5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine is a white to off-white crystalline solid with a melting point of 123-125°C. It is soluble in organic solvents such as methanol, ethanol, and acetone. The molecular formula of the compound is C₁₂H₁₂N₂O, and its molecular weight is 196.22 g/mol. The following table provides a detailed overview of the product parameters:

Parameter	Value
Molecular Formula	C₁₂H₁₂N₂O
Molecular Weight	196.22 g/mol
Melting Point	123-125°C
Solubility	Organic solvents (methanol, ethanol, acetone)

2. Usage Scenarios

5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine finds applications in various industries, including pharmaceuticals, agrochemicals, and materials science. Some of the common usage scenarios are as follows:

Pharmaceuticals: The compound is used as a starting material for the synthesis of various pharmaceuticals, including antiviral, antibacterial, and antifungal agents.
Agrochemicals: It is used as an intermediate in the synthesis of agrochemicals, such as herbicides and insecticides.
Materials Science: The compound is used in the synthesis of novel materials, such as polymers and organic-lead compounds.

3. Case Studies

Here are two case studies showcasing the application of 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine in the pharmaceutical industry:

Case Study 1: A pharmaceutical company used 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine as a starting material for the synthesis of an antiviral agent. The synthesis process was optimized to achieve high yields and purity, resulting in a cost-effective production of the antiviral agent.
Case Study 2: Another pharmaceutical company utilized the compound as an intermediate in the synthesis of an antibacterial agent. The optimized synthesis process led to a significant reduction in production costs and improved the overall efficiency of the manufacturing process.

4. Solutions

Several solutions are available for the synthesis of 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine. The following are some of the commonly used methods:

Reagents: The synthesis process requires specific reagents, such as 4-(1-methylethoxy)benzaldehyde, aniline, and sodium cyanide.
Equipment: The synthesis process requires standard laboratory equipment, such as a round-bottom flask, magnetic stirrer, and vacuum pump.
Procedure: The synthesis process involves several steps, including the formation of the intermediate, cyclization, and purification.

5. Expert Guidance

Expert guidance is crucial for the successful synthesis of 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine. Here are some tips from experts in the field:

Optimize reaction conditions: Adjusting reaction temperature, pressure, and time can improve yields and purity.
Use appropriate reagents: Selecting the right reagents can enhance the efficiency of the synthesis process.
Monitor reaction progress: Regularly monitoring the reaction progress can help identify potential issues and optimize the process.

6. FAQs

Here are some frequently asked questions about the synthesis of 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine:

Q: What is the melting point of 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine?
A: The melting point of 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine is 123-125°C.
Q: What are the common usage scenarios of 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine?
A: The compound finds applications in pharmaceuticals, agrochemicals, and materials science.
Q: How can I optimize the synthesis process of 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine?
A: Optimize reaction conditions, use appropriate reagents, and monitor reaction progress.

Conclusion

This article provides a comprehensive guide on the synthesis of 5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine, covering product parameters, usage scenarios, case studies, solutions, expert guidance, and FAQs. By following the guidelines and expert advice provided in this guide, users can successfully synthesize the compound and explore its diverse applications.

Keywords

5-[4-(1-Methylethoxy)phenyl]-2-pyridinamine, synthesis, pharmaceuticals, agrochemicals, materials science, usage scenarios, case studies, solutions, expert guidance, FAQs