NINGBO INNO PHARMCHEM CO.,LTD. provides a detailed look at N-Ethylformamide (CAS 627-45-2), a compound that is fundamental to many modern industrial processes. Understanding its properties is key to unlocking its potential as both a high-performance organic solvent and a versatile chemical intermediate.

Physically, N-Ethylformamide presents as a light yellow or colorless transparent liquid. Its molecular formula is C3H7NO, with a molecular weight of 73.09. Key physical properties include a boiling point of 202-204°C and a melting point of -78°C, indicating its stable liquid state across a broad temperature range. The flash point is recorded at 113°C, and its density is approximately 0.95 at 20°C. These characteristics make it suitable for handling and application in various industrial settings.

Chemically, N-Ethylformamide is recognized as an important organic chemical raw material and an effective organic solvent. Its primary industrial applications are diverse, ranging from its use as a solvent in drug synthesis and fiber spinning to its role in photographic chemicals, painting, and electronic chemicals. The compound is also integral to the pharmaceutical, dyestuff, spice, electrolysis, and electroplating industries, showcasing its adaptability.

For businesses seeking to procure this chemical, identifying reputable N-Ethylformamide suppliers is crucial. Factors such as minimum order quantity (200kg) and packaging options (200L plastic drum) are important logistical considerations. For those looking to buy N-Ethylformamide from China, understanding the market and the specific quality standards, such as the 99.9%min purity, is essential for ensuring successful integration into their production workflows.

NINGBO INNO PHARMCHEM CO.,LTD. is committed to supplying N-Ethylformamide that adheres to the highest quality standards, supporting the operational needs of industries worldwide. Our focus on providing essential, high-purity chemicals ensures that our clients can achieve optimal results in their diverse manufacturing processes.