The field of material science is continually advancing, with Metal-Organic Frameworks (MOFs) emerging as a class of materials with extraordinary potential, particularly in energy storage and catalysis. Central to the synthesis of many high-performance MOFs are organic linkers that dictate the framework's structure and properties. 2,3,6,7,10,11-Triphenylenehexol, identified by its CAS number 4877-80-9, is a significant organic linker increasingly utilized in the development of conductive MOFs (c-MOFs). For research institutions and industrial R&D teams, sourcing this specialized chemical from a reputable manufacturer in China is a strategic imperative.

Researchers have demonstrated that 2,3,6,7,10,11-Triphenylenehexol can serve as a linker in the synthesis of copper-based MOFs, such as Cu3(HHTP)2. These c-MOFs, when combined with other materials, exhibit remarkable capabilities in energy storage applications, including batteries and supercapacitors. The unique geometry and the presence of multiple hydroxyl groups in the Triphenylenehexol molecule contribute to the formation of porous, conductive frameworks. When you buy 2,3,6,7,10,11-Triphenylenehexol for MOF synthesis, you are enabling the creation of advanced materials with high specific capacity and energy density. Ensuring high purity, typically above 98%, is crucial for achieving the desired framework characteristics and electrochemical performance.

The advantages of using this particular linker extend to the electrochemical properties of the resulting MOFs. Studies have shown that variations in the linker structure, like substituting simpler molecules with 2,3,6,7,10,11-Triphenylenehexol, can lead to enhanced performance metrics such as improved specific capacity and long-term cycling stability. For teams focused on developing next-generation energy storage solutions, the ability to purchase CAS 4877-80-9 from a reliable supplier is critical for both experimental validation and potential scale-up. As a leading chemical supplier, we are committed to providing the quality and consistency required for these demanding applications.

We invite research scientists and material engineers to contact us for inquiries regarding bulk quantities and sample orders of 2,3,6,7,10,11-Triphenylenehexol. Our goal is to support your scientific endeavors and industrial innovations by providing essential, high-quality chemical intermediates. Partnering with us ensures you have a stable supply chain for your MOF synthesis projects, backed by our commitment to excellence and technical support. Explore the potential of Triphenylenehexol to advance your energy storage technologies by purchasing from our Chinese manufacturing base.