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Exploring N-Cyanoacetyl Urethanes (CAS No: 6629-04-5) – A Chemical with Diverse Applications
The world of organic chemistry is full of unique compounds with specific functionalities that serve a wide array of industries. One such compound, N-Cyanoacetyl Urethane (also identified by CAS number 6629-04-5), holds significant importance due to its versatile chemical properties. This blog dives into the structure, properties, uses, and potential applications of N-Cyanoacetyl Urethane, without focusing on any specific company that produces it.

What is N-Cyanoacetyl Urethane?
N-Cyanoacetyl Urethane is an organic compound that belongs to the class of urethanes, which are derivatives of carbamic acid. Chemically, it’s classified as an acetyl derivative of urethane, containing both a cyano group (-CN) and an acetyl group (-COCH3) attached to the nitrogen of the urethane moiety. The full chemical structure can be described as N-Cyanoacetyl-N-ethanone, and its CAS number, 6629-04-5, is often used to identify it in chemical databases and regulatory frameworks.
The compound is a reactive intermediate in various ...
... chemical reactions, meaning that it plays a role in the synthesis of other compounds, making it important in multiple industries. The cyano and acetyl groups attached to the urethane unit enhance the compound’s reactivity and chemical stability, making it a useful building block in organic synthesis.
Chemical Structure and Properties
N-Cyanoacetyl Urethane has the following structural features:
Urethane Backbone: The urethane group, consisting of a nitrogen atom attached to both an oxygen and a carbonyl group, provides stability to the molecule.
Cyano Group: The cyano (-CN) group is a highly electronegative functional group that provides reactivity, making the molecule useful for various chemical processes.
Acetyl Group: The acetyl (-COCH3) group is a common functional group in organic chemistry, known for its ability to enhance the solubility and stability of compounds.
Due to these functional groups, N-Cyanoacetyl Urethane exhibits polar properties that make it soluble in various organic solvents, while also allowing it to participate in a wide range of chemical reactions, including nucleophilic substitution and condensation.
Applications and Uses of N-Cyanoacetyl Urethane
The unique chemical properties of N-Cyanoacetyl Urethane make it valuable in a variety of applications, especially in fields such as organic synthesis, pharmaceuticals, and materials science. Let’s explore some of its uses:
Intermediate in Organic Synthesis: N-Cyanoacetyl Urethane serves as a key intermediate in the synthesis of other more complex organic molecules. The cyano and acetyl groups provide the molecule with the reactivity needed for further transformations, such as the creation of other urethane derivatives or complex heterocyclic compounds.

Pharmaceutical Industry: N-Cyanoacetyl Urethane can be used in the production of pharmaceutical compounds. The reactivity of the cyano group, in particular, allows it to be involved in the synthesis of bioactive molecules. It may also be explored for potential use in drug delivery systems, particularly in formulations where controlled release is required.

Polymer Chemistry: In polymer science, urethane compounds are often used to create elastomers and plastics. N-Cyanoacetylurethane’s reactivity can make it useful in the development of specialized polymer materials that have specific properties, such as increased durability or resistance to heat and chemicals.

Chemical Manufacturing: As a chemical intermediate, N-Cyanoacetyl Urethane can be involved in the production of various specialty chemicals used in industries ranging from agrochemicals to coatings and adhesives. Its role in forming complex molecules makes it an essential component in the creation of specialty chemicals used in multiple industrial processes.

Analytical Chemistry: The distinct chemical structure of N-Cyanoacetyl Urethane also makes it valuable in analytical chemistry. It can be used in the development of reagents or as a standard for calibration in laboratory settings, especially when studying reactions involving urethane groups or cyano derivatives.

Regulatory Status and Safety
N-Cyanoacetyl Urethane, like many chemical compounds, is subject to regulations depending on its application. In most cases, chemicals such as this one must meet specific safety standards to be used in consumer products or industrial processes.
As a reactive compound, safety precautions are necessary when handling N-Cyanoacetyl Urethane, particularly in controlled laboratory environments. Proper protective equipment, such as gloves and goggles, should be worn to avoid exposure, as some chemicals can cause irritation or other health concerns upon contact or inhalation.
Moreover, as a chemical that can be used in various industrial applications, it’s crucial that N-Cyanoacetyl Urethane adheres to environmental regulations to prevent contamination or unintended release into ecosystems. Manufacturers, researchers, and users of the compound must ensure compliance with local and international regulations for handling, storage, and disposal.
Future Trends and Potential Research
The unique structure of N-Cyanoacetyl Urethane opens the door for future research and development in several areas:
Pharmaceutical Development: As researchers continue to explore the potential of urethane derivatives in drug development, N-Cyanoacetyl Urethane may find its way into new therapies, particularly in the design of compounds with specific bioactivity.

Sustainable Chemical Synthesis: The demand for environmentally friendly chemicals and processes continues to rise. N-Cyanoacetyl Urethane, as a reactive intermediate, might play a role in more sustainable chemical synthesis methods, minimizing the use of hazardous reagents and reducing waste.

Polymer and Materials Innovation: The development of high-performance polymers and materials that require specific chemical properties, such as temperature stability or mechanical strength, could benefit from the inclusion of N-Cyanoacetyl Urethane in their production.

Green Chemistry: With a growing emphasis on green chemistry, the future of chemical synthesis is focusing on more eco-friendly and efficient processes. N-Cyanoacetylurethane’s potential for use in cleaner chemical reactions aligns with the ongoing shift toward sustainability in the chemical industry.

Conclusion
N-Cyanoacetyl Urethane (CAS No: 6629-04-5) is a versatile and important chemical compound in the field of organic synthesis, pharmaceuticals, and polymer chemistry. Its ability to act as a reactive intermediate in various chemical processes makes it an essential building block for the development of more complex molecules and specialized materials. As industries and researchers continue to explore its potential applications, N-Cyanoacetyl Urethane is likely to remain a significant player in a wide range of fields.
Whether you’re working in pharmaceuticals, chemical manufacturing, or materials science, understanding the properties and potential of compounds like N-Cyanoacetyl Urethane is crucial in advancing technological and industrial innovation.
URL: For more information, visit Vasista Pharma : Cas No: 6629-04-5 Manufacturers