Research Grade Super High Purity SWCNTs | Single Walled Carbon Nanotube
Research Grade Single-walled Carbon Nanotubes Application
This product is produced by methane catalytic decomposition over co-based catalyst, then experienced deep air oxidation. There is almost no amorphous carbon in this product. It has high ignition temperature, 610 ~ 620°C. It can be used to make transparent conductive films and other research & industrial application. This SWNTs-based Transparent Conductive Films can reach less than 200 ohm/sq sheet resistance with more than 80% transparency. The product is the ideal manufacturing material for CNT-based Transparent Conductive Films for the touch screen, flat panel display, OLED, and thin-film solar industries. Compared with traditional indium tin oxide (ITO) coated films, the CNT-based transparent Conductive Films have the evidently superiority as follows: (1) More mechanical robustness for longer lifetime; (2) The broader and more color-neutral transmittance; (3) Reaching higher levels of sheet resistance without losing uniformity; (4) lower cost.
| Research Grade Super High Purity SWCNTs | Single Walled Carbon Nanotube | |||||||
|---|---|---|---|---|---|---|---|
| Product No. | CAS No. | Formula | Molecular Weight | APS | Purity | Color | Morphology |
| NRE-1004 | NA | Single-walled carbon nanotubes | NA | NA | NA | Black | NA |
| Density | 2.1g/cm3 | ||||||
| Melting Point | NA | ||||||
| Boling Point | NA | ||||||
Research Grade Single-walled Carbon Nanotubes Application
This product is produced by methane catalytic decomposition over co-based catalyst, then experienced deep air oxidation. There is almost no amorphous carbon in this product. It has high ignition temperature, 610 ~ 620°C. It can be used to make transparent conductive films and other research & industrial application. This SWNTs-based Transparent Conductive Films can reach less than 200 ohm/sq sheet resistance with more than 80% transparency. The product is the ideal manufacturing material for CNT-based Transparent Conductive Films for the touch screen, flat panel display, OLED, and thin-film solar industries. Compared with traditional indium tin oxide (ITO) coated films, the CNT-based transparent Conductive Films have the evidently superiority as follows: (1) More mechanical robustness for longer lifetime; (2) The broader and more color-neutral transmittance; (3) Reaching higher levels of sheet resistance without losing uniformity; (4) lower cost.
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