Highly conductive single-walled carbon nanotubes
Highly conductive single-walled carbon nanotubes

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Highly conductive single-walled carbon nanotubes

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Product Name

Name:Highly conductive single-walled carbon nanotubes

Product Overview

Carbon nanotubes, also known as buckytubes, can be viewed as seamless hollow circular tubes formed by winding a single layer of graphite hexagonal grid plane along chiral vectors, with carbon atoms typically capped at both ends in pentagons. Therefore, the carbon atoms in carbon nanotubes are mainly sp2 hybridized, and once the hexagonal network structure forms a spatial topology, a certain sp3 hybridization can be formed. The diameter of SWCNT is generally between 1-2 nm. Single walled carbon nanotubes can reach lengths of micrometers, even millimeters and centimeters, with a large aspect ratio and superior electrical, mechanical, and thermal properties.

Technical Parameter

OD:-2 nm

Purity:gt;95%

Length:/span>5-30 μm

Cond>2000 s/cm

Product Features

Excellent conductivity: single-walled carbon nanotubes themselves have good conductivity, and high conductivity single-walled carbon nanotubes are particularly outstanding in this regard, with conductivity greater than 2000 s/cm tested by compression method.

Unique structure: It has a tubular structure formed by curling a layer of carbon atoms, with a diameter usually around a few nanometers. This structure endows it with special physical and chemical properties.

Application Fields

Electronic components, such as wires and transistors in integrated circuits, can improve the performance and integration of electronic devices.

Energy storage and conversion: used as electrode materials for lithium-ion batteries, supercapacitors, etc., to improve charge and discharge performance and cycle life.

Sensors: Due to their sensitive response to electrical signals, they can be used to manufacture highly sensitive chemical and biological sensors.

For example, in the field of flexible electronics, flexible conductive films prepared using highly conductive single-walled carbon nanotubes have excellent flexibility and conductivity, which can meet the needs of wearable devices. In new energy vehicles, applying it to battery electrodes can help improve the fast charging performance and range of the battery.

Related Information

Please e-mail for the detailed characterization data.

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