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MWCNTs Isopropanol Dispersion (3wt%, >95+%, OD: 5-15 nm, Length 50um)

MWCNTs Isopropanol Dispersion
Product No NRE-36017
CAS No. NA
Purity > 95 wt%
Average Diameter 5-15 nm
Average Length 50 um (TEM)
Special Surface Area(SSA) > 233 m2/g (BET)
Tap Density  0.27g/cm3
True Density 2.1 g/cm3
Electric Conductivity > 100 S/cm

MWCNTs Isopropanol Dispersion

Electronics and Sensors:

MWCNTs Isopropanol Dispersion

Conductive materials: CNTs Isopropanol Dispersion are excellent conductors of electricity, making them useful in various electronic applications, including conductive coatings, electrodes for batteries, supercapacitors, and electronic devices.

Sensors: Due to their high surface area and sensitivity to small changes in the surrounding environment, CNTs Isopropanol Dispersion are used in chemical sensors and biosensors to detect gases, toxins, and biological substances.

Field-effect transistors (FETs): CNTs Isopropanol Dispersion can be used as the channel material in nanoelectronics, including FETs, due to their high electron mobility and stability.

Energy Storage and Conversion

Batteries: MWCNTs Isopropanol Dispersion are incorporated into lithium-ion batteries and supercapacitors as conductive additives, improving energy storage and performance.

Fuel cells: MWCNTs are used in fuel cells as electrodes to improve conductivity and enhance the efficiency of energy conversion.

Solar cells: In photovoltaic devices, CNTs Isopropanol Dispersion can be used to improve charge transport and efficiency.

Composite Materials

Structural reinforcement: MWCNTs are added to polymers, metals, and ceramics to create nanocomposites with enhanced mechanical properties such as strength, stiffness, and durability. These composites are used in the automotive, aerospace, and construction industries.

Lightweight materials: They are used in lightweight, high-strength materials for the manufacturing of lightweight vehicles, aircraft, and other advanced materials.

Thermal conductivity: MWCNTs have excellent heat transfer properties and are used to create thermally conductive composites for applications such as heat sinks and electronic cooling.

Medical and Biological Applications

Drug delivery: MWCNTs are employed in drug delivery systems due to their ability to carry drugs within their hollow structure and release them in a controlled manner at specific targets.

 

 

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