2-Amino-3,5-dichlorobenzoyl isopropylamine CAS No.: 1006620-01-4

The molecular formula of our herbicide intermediate is C10H12Cl2N2O and the molecular weight is 247.12, ensuring excellent quality and reliability in the field of herbicide production. Its unique composition ensures the efficacy and versatility needed for successful weed control.

As herbicide development continues to advance, it becomes increasingly important to obtain high-quality intermediate ingredients. Our team of experts has carefully designed this product to meet the needs of the herbicide industry. From formulation research to large-scale production, our herbicide intermediate 2-amino-3,5-dichlorobenzoylisopropylamine is proving to be an essential tool for professionals in the field.

One of the main advantages of our products is their competitive prices. We understand the importance of cost-effectiveness in the herbicide market, therefore, we have streamlined our production process to offer this intermediate at a very competitive price. By reducing production costs without compromising quality, we ensure that our customers have access to the herbicide intermediate 2-amino-3,5-dichlorobenzoylisopropylamine on tight budgets.

Additionally, stability is a key factor in any herbicide production. That's why we focus on maintaining a stable assay for this product. Our thorough quality control measures ensure ingredient consistency, so you can rely on our herbicide intermediate 2-amino-3,5-dichlorobenzoylisopropylamine to achieve consistent results in your herbicide formulations. With its stability, you can move forward with herbicide development with confidence knowing that the intermediate will consistently deliver the results you need.

In addition to competitive pricing and stable detection, our herbicide intermediate 2-amino-3,5-dichlorobenzoylisopropylamine has many other advantages. Its excellent solubility ensures easy incorporation into a variety of formulations, thereby enhancing its usability and versatility. The purity of the compound helps reduce impurities in the final herbicide product, thereby increasing effectiveness and yield.