PD ISO/TS 11308:2020 - Nanotechnologies: Characterization of Carbon Nanotube Samples Using Thermogravimetric Analysis

Welcome to the cutting-edge world of nanotechnology with the PD ISO/TS 11308:2020 standard. This comprehensive document is an essential resource for professionals and researchers involved in the field of nanotechnology, specifically focusing on the characterization of carbon nanotube samples using thermogravimetric analysis (TGA).

Overview

Released on April 9, 2020, this standard provides a detailed methodology for the characterization of carbon nanotubes (CNTs), which are a pivotal component in the advancement of nanotechnology. With 34 pages of in-depth information, this document is a must-have for anyone looking to ensure precision and accuracy in their work with CNTs.

Key Features

• Standard Number: PD ISO/TS 11308:2020
• ISBN: 978 0 539 03764 7
• Status: Standard

Why Choose This Standard?

The PD ISO/TS 11308:2020 standard is designed to provide a robust framework for the thermogravimetric analysis of carbon nanotubes. This analysis is crucial for understanding the thermal stability and composition of CNTs, which are widely used in various applications due to their unique properties such as high strength, electrical conductivity, and thermal conductivity.

Benefits of Thermogravimetric Analysis

Thermogravimetric analysis is a technique that measures the change in weight of a material as it is heated, cooled, or held at a constant temperature. This method is particularly beneficial for:

• Determining the thermal stability of materials.
• Analyzing the composition of complex materials.
• Identifying the presence of volatile components.
• Assessing the purity of materials.

Applications of Carbon Nanotubes

Carbon nanotubes are revolutionizing various industries due to their exceptional properties. Some of the key applications include:

• Electronics: Used in the development of transistors, sensors, and other electronic components.
• Materials Science: Enhancing the strength and durability of composite materials.
• Energy Storage: Improving the efficiency of batteries and supercapacitors.
• Medical Devices: Utilized in drug delivery systems and diagnostic tools.

Who Should Use This Standard?

This standard is ideal for:

• Researchers and scientists working in nanotechnology and materials science.
• Quality control professionals in industries utilizing carbon nanotubes.
• Academic institutions conducting research on nanomaterials.
• Manufacturers of products incorporating carbon nanotubes.

Conclusion

The PD ISO/TS 11308:2020 standard is an invaluable tool for anyone involved in the characterization of carbon nanotubes. By providing a clear and detailed methodology for thermogravimetric analysis, this standard ensures that you can achieve accurate and reliable results in your work with CNTs. Whether you are in research, manufacturing, or quality control, this document will guide you in harnessing the full potential of carbon nanotubes in your applications.

Embrace the future of nanotechnology with confidence and precision by integrating the PD ISO/TS 11308:2020 standard into your work processes.

PD ISO/TS 11308:2020

This standard PD ISO/TS 11308:2020 Nanotechnologies. Characterization of carbon nanotube samples using thermogravimetric analysis is classified in these ICS categories:

• 07.120 Nanotechnologies

This document gives guidelines for the characterization of carbon nanotube (CNT)-containing samples by thermogravimetric analysis (TGA), performed in either an inert or oxidizing environment. Guidance is provided on the purity assessment of the CNT samples through a quantitative measure of the types of carbon species present as well as the non-carbon impurities (e.g. metal catalyst particles) within the material.

In addition, this technique provides a qualitative assessment of the thermal stability and homogeneity of the CNT-containing sample. Additional characterization techniques are required to confirm the presence of specific types of CNT and to verify the composition of the metallic impurities present.