Single Walled Carbon Nanotubes, Purity: > 96%, Dia: 1.0 nm
- SKU:
- NG01SW0501
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Description
5 grams/190 €
25 grams/590 €
100 grams/1990 €
500 grams/7860 €
1000 grams/12640 €
Single Walled Carbon Nanotubes
Purity: > 96%, Dia: 1.0 nm
Single Walled Carbon Nanotubes (SWCNTs) are one-atom-thick graphene sheets rolled into ultra-thin cylindrical tubes. With a high purity of>96% and a precise average diameter of 1.0 nm, these nanotubes exhibit exceptional electrical, mechanical, and thermal properties.
Manufactured using CVD (Chemical Vapor Deposition) and deep air oxidation, this product contains minimal amorphous carbon and is engineered for high-performance applications including transparent conductive films and optoelectronic devices.
Technical Specifications
| Purity | > 96% |
| Color | Black |
| Average Diameter | 1.0 nm |
| Outer Diameter (OD) | 1–2 nm |
| Inner Diameter (ID) | 0.8–1.6 nm |
| Length | 20–55 µm |
| Tap Density | 0.15 g/cm³ |
| True Density | 2.4 g/cm³ |
| Specific Surface Area | 570 m²/g |
| Ash Content | 3.0 wt% |
| Thermal Conductivity | 45–190 W/m·K |
| Electrical Conductivity | 98 S/cm |
| Ignition Temperature | 620 °C |
| I<sub>G</sub>/I<sub>D</sub> Ratio | 20 |
| Manufacturing Method | CVD |
| CAS No | 308068-56-6 |
Performance Highlighst:
SWCNT-based films prepared with this product can achieve >80% transparency and <200 Ω/sq sheet resistance, making them ideal for next-generation transparent electronics.
Applications:
- Transparent Conductive Films & Displays: These SWCNTs are ideal for the fabrication of transparent conductive films used in modern optoelectronic devices. Their excellent electrical conductivity and optical clarity support applications in touchscreen technology, OLED panels, and flat panel displays, offering a flexible and lightweight alternative to traditional transparent electrodes.
- Thin-Film Solar Cells & Photovoltaics: Their high aspect ratio and conductive network structure enable efficient charge transport in thin-film solar cells. These nanotubes enhance light absorption and carrier mobility, contributing to improved photovoltaic performance in next-generation solar technologies.
- Conductive Coatings & Flexible Electronics: These nanotubes are widely used in conductive coatings and printable electronics. Their flexibility and processability make them suitable for roll-to-roll manufacturing of flexible circuits, wearable sensors, and transparent electrodes in smart devices.
- Biosensors & Nanomechanical Devices: With their nanoscale dimensions and surface sensitivity, these SWCNTs are employed in high-sensitivity biosensors and nanomechanical systems. Their ability to detect molecular interactions at low concentrations makes them valuable in diagnostics, environmental monitoring, and bioelectronics.
- Energy Storage & CNT-Polymer Nanocomposites: These nanotubes enhance electrochemical performance in energy storage systems such as supercapacitors and batteries. When integrated into CNT-polymer nanocomposites, they improve mechanical strength, electrical conductivity, and thermal stability, supporting multifunctional material development.
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