Super Activated Carbon Nanoparticles
Super Activated Carbon Nanoparticles | |
Product No | NRE-1042 |
CAS No. | 7440-44-0 |
Formula | C |
APS | <100nm (Can be Customized) |
Purity | 99.9% |
Color | Black |
Molecular Weight | 12.0107 g/mol |
Density | 1.8-2.1 g/cm3 |
Melting Point | 3,550 °C |
Boiling Point | 4,827 °C |
Super Activated Carbon Nanoparticles Product Features:
Super-activated carbon nanoparticles have a wide range of applications due to their unique properties, including high surface area, porous structure, and excellent adsorption capabilities. Here are some of the key applications of super-activated carbon nanoparticles:
Water Purification: Super-activated carbon nanoparticles are highly effective in removing organic contaminants, heavy metals, and even some microorganisms from water. They are used in water treatment plants, portable water purifiers, and industrial processes.
Air Filtration: These nanoparticles can be used in air purification systems to capture volatile organic compounds (VOCs), odors, and airborne pollutants. They are commonly used in HVAC systems, air purifiers, and gas masks.
Environmental Remediation: Super-activated carbon nanoparticles are employed for the remediation of contaminated soil and groundwater. They can adsorb and remove various pollutants, including petroleum hydrocarbons, pesticides, and solvents.
Energy Storage: These nanoparticles are explored for use in supercapacitors and energy storage devices due to their high surface area and electrical conductivity. They can store and release energy efficiently, contributing to advancements in renewable energy systems.
Catalysis: Super-activated carbon nanoparticles can serve as catalyst supports or even catalysts themselves in chemical reactions. Their high surface area and porosity provide an ideal platform for catalytic reactions in various industries, such as the production of chemicals and fuels.
Drug Delivery: They are used as drug carriers in the pharmaceutical industry. The large surface area allows for the loading of drugs, and their porous structure facilitates controlled drug release, enhancing drug efficacy and reducing side effects.
Gas Storage and Separation: These nanoparticles are being explored for the storage of gases, such as hydrogen and methane, and for gas separation applications. The porous structure allows for the selective adsorption and separation of gases.
Electrochemical Sensors: Super-activated carbon nanoparticles are used in the development of electrochemical sensors for detecting various analytes, including glucose, heavy metals, and environmental pollutants.
Wastewater Treatment: They are employed in the treatment of industrial wastewater to remove contaminants, including dyes, heavy metals, and organic compounds, through adsorption processes.
Food and Beverage Processing: These nanoparticles are used in the food and beverage industry for decolorization, deodorization, and purification processes. They help in removing impurities and improving the quality of food products.
Cosmetics and Personal Care Products: Super-activated carbon nanoparticles are used in cosmetics and personal care products, such as face masks and skin cleansers, for their ability to adsorb impurities, oil, and toxins from the skin.
Environmental Monitoring: They are used in environmental monitoring devices to detect and quantify pollutants in air and water samples.
Nanomedicine: Super-activated carbon nanoparticles are investigated for their potential in cancer therapy through targeted drug delivery and imaging applications.
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