MWCNTs Pristine Research Grade
MWCNTs Pristine Research Grade
| MWCNTs Pristine Research Grade | |
| Product No | NRE-34011 |
| CAS No. | 308068-56-6 |
| Purity | Carbon nanotubes > 99wt% |
| Average Diameter | 10-20 nm |
| Average Length | 02-8 um (TEM) |
| Special Surface Area(SSA) | >110m2/g(BET) |
| Tap Density | 0.28g/cm3 |
| True Density | 2.1g/cm3 |
| Electric Conductivity | > 100 S/cm |
MWCNTs Pristine Research Grade
Applications of Pristine MWCNTs in Research
The unique characteristics of pristine MWCNTs make them suitable for various applications across nanotechnology, materials science, electronics, energy storage, and biomedicine. Below are some key research applications:
Materials Science and Nanocomposites
Polymer Nanocomposites: In research, pristine MWCNTs are often added to polymers to create nanocomposites. These composites exhibit enhanced mechanical properties, such as increased strength, stiffness, and tensile strength. Pristine MWCNTs are ideal for investigating the reinforcement potential of nanotubes in polymers like epoxies, polymers, and rubber. They can also improve thermal conductivity and electrical conductivity, making them useful in lightweight, high-performance materials for industries like aerospace, automotive, and electronics.
Energy Storage and Conversion
Supercapacitors and Batteries: Pristine MWCNTs are used in research on supercapacitors, batteries, and fuel cells due to their high surface area, conductivity, and mechanical strength. MWCNTs are explored as conductive additives in electrode materials for supercapacitors and batteries to increase their charge-discharge efficiency, cycling stability, and energy density. The excellent electron transport capabilities of pristine MWCNTs allow for improved performance of energy storage devices such as lithium-ion batteries, sodium-ion batteries, and supercapacitors.
Photovoltaics: Research-grade pristine MWCNTs are used in the development of organic solar cells and photovoltaic devices. Due to their electrical conductivity and ability to form conductive networks, pristine MWCNTs help to improve the charge transport properties and overall efficiency of these energy-harvesting devices.
Electronics and Conductive Applications
Conductive Films and Inks: Pristine MWCNTs are often used to create conductive inks and films for printed electronics. Researchers study the dispersion and integration of MWCNTs in inks for flexible electronics, smart packaging, RFID tags, touchscreens, and displays. The intrinsic electrical conductivity of pristine MWCNTs is crucial for ensuring high-performance applications in wearable electronics, displays, and sensors.
