Ultra-High Purity Single-Walled Carbon Nanotube NMP Dispersion Liquid

Product Overview
The ultra-high purity single-walled carbon nanotube NMP dispersion liquid is composed of ultra-high purity single-walled carbon nanotubes, NMP solvent, and non-ionic surfactants. It is specifically designed for the uniform dispersion of single-walled carbon nanotubes in NMP solvents. This product exhibits excellent electrical, mechanical, and thermal properties, making it ideal for high-end applications in electronics, energy storage, and composite materials.

Key Features

• Excellent Conductivity:Features outstanding electrical conductivity with low resistance, capable of efficiently transmitting electrical current, comparable to silver or copper conductors.
• High Thermal Conductivity:Exceptional thermal transfer ability, quickly dissipating heat, with extensive potential applications in electronic devices and thermal management systems.
• Unique Mechanical Properties:High strength and toughness, tensile strength of 100-200 GPa, Young's modulus around 1 TPa, ideal for enhancing the mechanical properties of composite materials.
• Chemical Stability:Stable in most chemical environments, resistant to acids, bases, oxidizing agents, and other chemicals, ensuring long-term performance.
• Optical Properties:Absorbs and scatters specific wavelengths of light and can emit light under certain conditions, suitable for optoelectronic devices.
• High Flexibility:Can bend and fold without breaking, suitable for the manufacture of flexible electronic devices.

Applications

• Electronics:Used in the fabrication of compact, high-efficiency integrated circuits, field-effect transistors, and flexible electronic devices.
• Energy:Used as electrode materials in lithium-ion batteries and supercapacitors, enhancing battery charging/discharging performance and extending cycle life.
• Composite Materials:Added to polymers and other materials to significantly improve strength, stiffness, and toughness.
• Sensors:Applied in the detection of gases and chemicals, offering high sensitivity and selectivity.
• Nano-Mechanics:Used as key components in constructing miniature mechanical systems, such as nano-motors.
• Aerospace:Ideal for producing lightweight and strong components for aircraft and spacecraft.
• Other Fields:Used in catalysts, field emitters, conductive films, and biological nanomaterials.