Thermoelectric-Grade Single-Walled Carbon Nanotubes

Product Overview
Thermoelectric-grade single-walled carbon nanotubes are specially designed carbon nanotubes with excellent thermoelectric properties. Due to their unique structure and physical characteristics, single-walled carbon nanotubes are considered highly promising thermoelectric materials, capable of efficiently converting thermal energy into electrical energy. These nanotubes offer good electrical conductivity, thermal stability, and can be combined with other materials to further optimize thermoelectric performance. They are of significant value in theoretical research, experimental studies, and practical applications.

Key Features

• High Seebeck Coefficient: Tested using thin-film methods, the Seebeck coefficient is greater than 45 µV/K, indicating excellent thermoelectric performance.
• Good Stability: The Seebeck coefficient is stable across batches, ensuring reliable and consistent material quality.

Applications

• Theoretical Research: Used to study the thermoelectric properties and transport mechanisms of single-walled carbon nanotubes, providing theoretical insights and simulation results that drive advancements in thermoelectric materials.
• Experimental Research: Measured for key thermoelectric properties such as electrical conductivity and Seebeck coefficient, exploring their relationship with factors like nanotube diameter and chirality.
• Composite Materials: Combined with other high-performance thermoelectric materials (such as inorganic or polymer materials) to further enhance thermoelectric performance.
• Application Exploration: Investigating use in thermoelectric power generation, thermal management, and sensor technologies. For example, they can power micro thermoelectric generators for wearable devices and Internet of Things (IoT) sensors.