CMK-8

Product Name

^Name：CMK-8

Product Overview

 

^{CMK-8 is an ordered mesoporous carbon. The preparation method is the hard template method, using cubic phase Ia3d mesoporous molecular sieve KIT-6 as the hard template for synthesis. Ordered mesoporous carbon materials have highly ordered pore arrangements at the microscale, which result in a large specific surface area, uniform and adjustable pore size, and facilitate material transport and separation. CMK-8 has mesoporous properties and superior conductivity, demonstrating excellent performance in the field of electrochemistry. It is particularly suitable as an electrode material or for modifying electrodes to improve the sensitivity and selectivity of electrochemical sensors. With the increasing demand for high-performance electrochemical sensors and battery materials, CMK-8, as a novel mesoporous material with excellent performance, has broad research and application prospects. In the future, CMK-8 is expected to be applied in more fields, such as environmental monitoring, biosensing, energy storage, etc.}

^{Technical Parameter}

 

 

 

^{Specific surface area(m2/g)::00}

^{Pore diameter (nm):3.2-6.6}

^{Total Pore volume (cm2/g) :0.75-1.1}

^Purity::9.6%

 

 

^{Product Features}

 

^{Ordered mesoporous structure: It has a regular pore structure with a space group of Ia3d and high symmetry.}

^{Larger specific surface area and pore volume: A larger specific surface area can provide more active sites; The larger pore volume is conducive to the transport and storage of substances.}

^{Good chemical inertness: Has good chemical stability.}

^{High electron density: Theoretically, its surface has a high electron density.}

^{Good thermal and mechanical stability: able to maintain structural stability under high temperature and mechanical action.}

^{Application Fields}

 

^{Electrode material: CMK-8 is often used as an electrode material or electrode modifier due to its high specific surface area and good conductivity. In electrochemical sensors, the combination of CMK-8 and graphene carbon nanosheets (GNs) can significantly improve the sensitivity and stability of the sensor. In addition, CMK-8 can also be used in electrochemical energy storage devices such as supercapacitors to improve energy storage performance.}

^{Electrochemical catalysis: The mesoporous structure of CMK-8 is conducive to the rapid diffusion of electrolytes and reactants, and therefore has potential application value in electrochemical catalytic reactions. For example, in fuel cells, CMK-8 can serve as a catalyst carrier to enhance the dispersion and activity of the catalyst.}

^{Adsorbent material: The high specific surface area and mesoporous structure of CMK-8 make it an excellent adsorbent material. In theory, it can be used to adsorb and separate small molecular substances in gases and liquids, such as organic pollutants, heavy metal ions, etc.}

^{Catalyst support: Compared with pure mesoporous silicon materials, mesoporous carbon materials such as CMK-8 have higher specific surface area and porosity, as well as adjustable pore size and pore wall composition. These characteristics make CMK-8 an ideal catalyst carrier that can load various active components of catalysts, improving the efficiency and selectivity of catalytic reactions.}

^{Biomedical: The mesoporous structure and good biocompatibility of CMK-8 make it potentially valuable in the field of biomedical applications. For example, it can serve as a drug carrier, loading drug molecules into mesoporous channels to achieve sustained release and targeted delivery of drugs.}

^{Environmental Protection: In the field of environmental protection, CMK-8 can be used to treat pollutants such as wastewater and exhaust gas, reducing the concentration and toxicity of pollutants through adsorption and catalytic reactions.}

^{Related Information}

^{Please e-mail for the detailed characterization data.}

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