Unlock the Secrets of CAS 148-69-6： N-Ethyl-N-Cyanoethyl-m-Toluidine Uses & Benefits

Abstract

This article delves into the chemical compound CAS 148-69-6, known as N-Ethyl-N-Cyanoethyl-m-Toluidine. It explores its various uses and benefits across different industries, including its role in pharmaceuticals, agriculture, and research. The article provides an in-depth analysis of its properties, synthesis methods, and potential applications, highlighting its significance in modern scientific and industrial processes.

Introduction to N-Ethyl-N-Cyanoethyl-m-Toluidine

N-Ethyl-N-Cyanoethyl-m-Toluidine, with the chemical formula C₁₀H₁₁N, is a synthetic organic compound that has gained attention for its diverse applications. It is a derivative of toluene, characterized by the substitution of one of the hydrogen atoms with an ethyl group and another with a cyanoethyl group. This compound is commonly referred to by its CAS number, 148-69-6.

Pharmaceutical Applications

In the pharmaceutical industry, N-Ethyl-N-Cyanoethyl-m-Toluidine serves as a key intermediate in the synthesis of various drugs. Its role in the production of analgesics, anti-inflammatory agents, and cardiovascular medications is significant. For instance, it is used in the synthesis of the nonsteroidal anti-inflammatory drug (NSAID) flurbiprofen, which is effective in treating pain and inflammation.

Moreover, N-Ethyl-N-Cyanoethyl-m-Toluidine is involved in the synthesis of certain anticancer agents. Its ability to form stable bonds with other molecules makes it a valuable compound in the development of new chemotherapy drugs. The compound's potential in this field is still under investigation, with ongoing research aimed at uncovering its full therapeutic potential.

Agricultural Uses

In agriculture, N-Ethyl-N-Cyanoethyl-m-Toluidine finds application as a herbicide and insecticide. Its effectiveness in controlling weeds and pests makes it a valuable tool for farmers. The compound's ability to disrupt the nervous system of insects and plants contributes to its efficacy in agricultural applications.

Additionally, N-Ethyl-N-Cyanoethyl-m-Toluidine is used in the formulation of fungicides, which help protect crops from fungal infections. Its broad-spectrum activity ensures that it can combat a wide range of fungal pathogens, thereby reducing crop losses and improving yields.

Research and Development

The versatility of N-Ethyl-N-Cyanoethyl-m-Toluidine makes it a popular choice in research and development. Its use in organic synthesis allows scientists to create new compounds with potential applications in various fields. The compound's reactivity and stability make it an ideal starting material for the synthesis of complex molecules.

Furthermore, N-Ethyl-N-Cyanoethyl-m-Toluidine is employed in analytical chemistry for the detection of other compounds. Its unique spectroscopic properties enable researchers to identify and quantify specific substances in complex mixtures, contributing to advancements in environmental and forensic analysis.

Synthesis Methods

The synthesis of N-Ethyl-N-Cyanoethyl-m-Toluidine involves several steps, each requiring precise control of reaction conditions. One common method involves the reaction of toluene with ethyl cyanoacetate in the presence of a catalyst. This process yields the desired compound with high purity and efficiency.

Another synthesis route utilizes a nucleophilic substitution reaction, where a cyanoethyl group is introduced to toluene. This method offers flexibility in terms of reaction conditions and can be scaled up for industrial production.

Environmental and Health Considerations

While N-Ethyl-N-Cyanoethyl-m-Toluidine offers numerous benefits, it is important to consider its environmental and health implications. The compound is classified as hazardous due to its potential to cause irritation and allergic reactions in humans. Proper handling and disposal procedures are essential to minimize risks.

In the agricultural sector, the use of N-Ethyl-N-Cyanoethyl-m-Toluidine must be regulated to prevent environmental contamination and protect non-target organisms. Research is ongoing to develop safer alternatives that maintain its efficacy while reducing its environmental impact.

Conclusion

N-Ethyl-N-Cyanoethyl-m-Toluidine, with its CAS number 148-69-6, is a versatile compound with significant applications in pharmaceuticals, agriculture, and research. Its role in the synthesis of various drugs, its effectiveness as a herbicide and insecticide, and its utility in organic synthesis and analytical chemistry highlight its importance in modern scientific and industrial processes. As research continues to uncover new uses and benefits, N-Ethyl-N-Cyanoethyl-m-Toluidine remains a valuable compound with a promising future.

Keywords: N-Ethyl-N-Cyanoethyl-m-Toluidine, CAS 148-69-6, pharmaceuticals, agriculture, research, synthesis, environmental considerations.