Nanoporous carbon powder (NCP)

Product Name

^{Name：nanoprous  carbon powder (NCP)}

Product Overview

^{Porous carbon powder contains various types of pores. There are mesopores (with pore sizes between 2-50 nanometers) that can provide channels for material transport, such as in the field of energy storage, facilitating rapid diffusion of ions.}

   ^{Large pores (with a diameter greater than 50 nanometers) mainly play a role in material transport and containment, making it easier for electrolytes and other substances to penetrate into the interior of the material. Its pore structure is usually complex and interconnected. This connectivity is crucial for the transport and diffusion of matter within pores. For example, during the adsorption process, gases or liquids can enter the interior of the material through large pores, and then undergo deeper adsorption and storage in mesopores and micropores.}

   ^{The pore shapes of porous carbon powder are also diverse, including circular, elliptical, slit shaped, etc. Different shapes can affect its adsorption and storage performance.}

^{Technical Parameter}

^{Surface area:gt;200 m2/g}

^{Pore size：~50 nm/30nm/15nm}

^{Particle size:.2 um-1.5 um}

^{Product Features}

^{Pore structure: Porous carbon powder has a rich nano pore structure inside, with a wide range of pore size distribution, usually adjustable between a few nanometers to several hundred nanometers.}

^{Conductivity: Porous carbon powder theoretically has good conductivity, and its application in the field of electronics can be expanded.}

^{Surface properties: The surface of porous carbon powder can be modified by chemical modification or physical adsorption to introduce different functional groups or chemical species, thereby changing its surface properties, such as hydrophilicity, hydrophobicity, etc.}

^{Application Fields}

^{Catalysis: Porous carbon powder can be used as a carrier for catalysts or as a catalyst itself. Its high specific surface area and developed pore structure are conducive to the uniform dispersion of the catalyst and rapid transport of reactants, thereby improving catalytic efficiency.}

Drug carrier: Porous carbon powder can load drug molecules, achieving controlled release and targeted delivery of drugs. Its pore structure can regulate the release rate of drugs and improve their bioavailability.

^{Wastewater treatment: By utilizing the adsorption capacity of porous carbon powder for pollutants in water, it is theoretically possible to remove organic matter, heavy metal ions, dyes, and other pollutants from wastewater. By surface modification of porous carbon powder, its adsorption selectivity for specific pollutants can be improved, achieving more efficient wastewater treatment. For example, introducing functional groups such as amino groups onto the surface of porous carbon powder can enhance its adsorption capacity for heavy metal ions.}

^{Soil remediation: For contaminated soil, porous carbon powder can adsorb organic pollutants and heavy metal ions in the soil, reducing the mobility and bioavailability of pollutants in the soil, thereby achieving the goal of soil remediation. For example, in the remediation of pesticide contaminated farmland soil, porous carbon powder can adsorb pesticide residues in the soil, reducing their harm to crops and the ecological environment.}

^{Related Information}

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

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