For researchers and scientists engaged in developing new compounds, understanding the detailed specifications of chemical intermediates is paramount. Methyl 3-acetylbenzoate (CAS 21860-07-1) is a compound frequently used in R&D, and its precise characteristics dictate its suitability for various synthetic pathways. This article aims to provide a clear overview of the essential specifications of Methyl 3-acetylbenzoate, empowering chemists and researchers to make informed sourcing decisions.

Methyl 3-acetylbenzoate, with the molecular formula C10H10O3 and a molecular weight of 178.185, is primarily valued for its role as a chemical intermediate. When scientists purchase Methyl 3-acetylbenzoate for their laboratories, the most critical specification is typically its purity. Reputable suppliers, such as NINGBO INNO PHARMCHEM CO.,LTD., offer this compound with a guaranteed purity of 97% minimum. This high purity ensures that side reactions are minimized and the desired product is obtained with maximum yield and efficiency in R&D projects.

The appearance of Methyl 3-acetylbenzoate is also an important initial indicator of its quality. It is commonly described as a white to yellow solid. While slight color variations can occur due to trace impurities, significant deviations may warrant further investigation. Researchers should always refer to the Certificate of Analysis (COA) provided by the Methyl 3-acetylbenzoate manufacturer for specific lot details regarding appearance and purity.

Other physical properties, such as melting point and boiling point, are crucial for designing reaction conditions and purification strategies. The melting point for Methyl 3-acetylbenzoate typically falls within the range of 43-46°C. Its boiling point is approximately 291.4°C at 760 mmHg. These parameters assist chemists in handling the compound, determining appropriate reaction temperatures, and selecting suitable separation techniques like distillation or crystallization.

For researchers actively searching for Methyl 3-acetylbenzoate for specific applications of Methyl 3-acetylbenzoate, understanding its solubility and stability characteristics is also beneficial. While detailed information may vary, general knowledge of its behavior in common organic solvents aids in experimental design. Consulting with experienced Methyl 3-acetylbenzoate suppliers can provide valuable insights into optimal handling and storage conditions.

When evaluating potential sources, look for manufacturers who provide comprehensive technical data. This includes not only purity and physical properties but also information on spectral data (like NMR, MS) if available. Such documentation is vital for confirming the identity and quality of the material before its use in critical R&D workflows. The ability to readily access these specifications reinforces the trustworthiness of the supplier.

In conclusion, meticulous attention to the specifications of Methyl 3-acetylbenzoate is essential for successful research and development. By partnering with reliable manufacturers that offer high purity, accurate physical property data, and comprehensive documentation, scientists can confidently utilize this chemical intermediate to drive innovation and achieve their project goals.