Metal-Organic Frameworks (MOFs) represent a significant advancement in materials science, offering unique porous structures and tunable properties for a wide array of applications. Among these, our Copper-based MOF, Cu(QcQc) (CAS No.: 2381226-20-4), has garnered attention for its specific structural characteristics and potential for ion transport. As a leading manufacturer in this field, we are pleased to share insights into the science underpinning this versatile material.

The synthesis of Cu(QcQc) is typically achieved through a solvothermal or room-temperature diffusion method, coordinating copper ions with a carefully selected organic linker, Quinoline-5-carboxylic acid. This process results in the formation of a robust, crystalline material that presents as a blue powder. The defining feature of Cu(QcQc) is its ultramicroporous nature, characterized by a specific pore size of 0.33-0.38 nm. This precise pore dimension is critical for its applications in selective gas sorption and separation.

A key aspect of Cu(QcQc)'s utility lies in its capacity for ion transport. The framework incorporates vertical pore tunnels that facilitate the movement of ions. This property makes it a promising candidate for applications in areas such as batteries, catalysis, and sensor technologies where controlled ion migration is essential. For researchers and industrial partners seeking advanced materials for these applications, understanding the structural basis for ion transport is vital. We, as a manufacturer, ensure the consistent quality and structural integrity of our Cu(QcQc) products.

Furthermore, the stability of Cu(QcQc) is noteworthy. It exhibits good thermal stability, with a decomposition temperature around 240°C, and maintains its structure in air and various aqueous conditions for extended periods. This chemical and thermal resilience is a significant advantage, allowing the MOF to perform reliably in demanding environments. As a dedicated supplier, we emphasize the robustness of our materials, ensuring they meet the performance requirements for challenging industrial and research settings.

For those looking to buy or source Cu(QcQc) for research and development or industrial implementation, partnering with a reputable manufacturer is key. We offer high-quality Cu(QcQc) with comprehensive characterization data, ensuring that our clients receive materials that precisely meet their specifications. Our commitment as a leading supplier from China extends to providing expert technical support and ensuring a stable supply chain for your project needs.

We invite inquiries regarding the synthesis, characterization, and application of Cu(QcQc). Contact us to learn more about our MOF offerings and how we can support your innovation in ion transport and gas separation technologies.