Tetrahydrocyclopenta[c]pyrrole-1,3(2H,3aH)-dione

Product Overview

Tetrahydrocyclopenta[c]pyrrole-1,3(2H,3aH)-dione is a specialized cyclic imide compound widely recognized for its utility in advanced organic synthesis. As a critical chemical intermediate, this substance serves as a foundational building block for the development of complex molecular structures in pharmaceutical and agrochemical research. Our manufacturing process ensures consistent quality and reliability, making it an ideal choice for large-scale production environments where reproducibility is paramount.

The compound features a robust bicyclic structure that provides unique reactivity profiles suitable for various condensation and functionalization reactions. Researchers and procurement managers value this material for its stability under standard storage conditions and its compatibility with diverse synthetic routes. We maintain strict control over every production batch to guarantee that the chemical integrity meets international standards for fine chemical intermediates.

Key Physical and Chemical Properties

Understanding the physicochemical characteristics of this intermediate is essential for process optimization. The material typically presents as an almost white or pale yellow crystalline powder, indicating high levels of refinement. With a molecular formula of C7H9NO2 and a molecular weight of approximately 139.15 g/mol, it offers a favorable mass-to-reactivity ratio for synthesis planning.

The thermal properties include a melting point range centered around 85 to 88 degrees Celsius, which facilitates precise handling during melting point analysis and purification steps. The density is recorded at 1.242 g/cm3, and the boiling point reaches 322.2 degrees Celsius at 760 mmHg. These parameters are critical for designing distillation or crystallization processes. Additionally, the flash point of 162.2 degrees Celsius suggests standard safety protocols for flammable solids should be observed during handling and storage.

Quality Specifications and Analysis

Quality assurance is the cornerstone of our supply chain. Each batch undergoes rigorous testing against factory standards to ensure performance consistency. The following table outlines the typical specification profile based on our latest quality control data:

As demonstrated in the data above, our current production batches exceed the minimum assay requirement of 98.0%, achieving a purity level of 99.69%. Impurity levels are tightly controlled, with total impurities kept well below the 2.0% threshold. This high degree of purity minimizes side reactions in downstream synthesis, improving overall yield and reducing purification costs for our clients.

Industrial Applications and Usage

This cyclic imide derivative is primarily utilized as an intermediate in the synthesis of more complex organic molecules. Its applications span across several key sectors including pharmaceutical development, where it may serve as a scaffold for novel therapeutic agents. In the agrochemical industry, it functions as a precursor for specialized active ingredients. Furthermore, material science researchers may employ this compound in the development of polymers or functional materials requiring specific imide functionalities.

For optimal results, we recommend storing the product in a cool, dry, and well-ventilated area away from incompatible substances. Proper sealing is necessary to prevent moisture absorption, although the low loss on drying values indicate excellent stability. Our team provides comprehensive technical support, including Certificates of Analysis (COA) and safety data sheets to ensure compliant integration into your manufacturing processes.