The field of drug delivery is constantly evolving, driven by the need for more effective, targeted, and controlled therapeutic solutions. In this pursuit, advanced porous materials like Metal-Organic Frameworks (MOFs) are playing an increasingly vital role. Among these, Zeolitic Imidazolate Framework-67 (ZIF-67), a cobalt-based MOF with CAS 46201-07-4, stands out for its unique structural characteristics and promising applications in pharmaceutical science.

ZIF-67 is recognized for its distinctive purple powder appearance and its highly ordered crystalline structure, characterized by a high surface area (around 1500 m²/g) and a pore volume of 0.66 cm³/g. These properties are crucial for its function as a drug carrier. The framework's porosity allows for the efficient loading of drug molecules, while its tunable pore size (0.34nm; 1.1nm) can be leveraged to control the release kinetics of the encapsulated therapeutics. This controlled release is fundamental to improving drug efficacy and reducing side effects.

For R&D scientists and procurement professionals in the pharmaceutical industry, sourcing high-quality ZIF-67 is paramount. As a dedicated supplier of advanced chemical materials, we ensure that our ZIF-67 meets the high purity and consistency standards required for drug delivery applications. When you choose to buy ZIF-67 from us, you are partnering with a manufacturer committed to quality and innovation, offering competitive prices for bulk orders. We understand the rigorous demands of the pharmaceutical sector and aim to provide materials that facilitate groundbreaking research and development.

The application of ZIF-67 in drug delivery extends beyond simple encapsulation. Its biocompatibility and ability to degrade under specific conditions (e.g., in the stomach) make it a suitable candidate for oral drug administration. Researchers are actively investigating its potential for targeted therapies, where the MOF can be engineered to release drugs specifically at disease sites, enhancing therapeutic outcomes while minimizing systemic exposure. This precision makes ZIF-67 a valuable component in the development of next-generation medicines.

In addition to drug delivery, ZIF-67 is also recognized for its utility in gas adsorption and catalysis. However, its potential in the biomedical field is particularly exciting. If your research involves novel drug carriers, controlled release systems, or biocompatible porous materials, consider ZIF-67. We invite you to contact us for detailed product information, technical specifications, and to discuss your specific requirements. Secure a reliable supply of ZIF-67 from a trusted manufacturer to advance your pharmaceutical innovations.