Skip to main content
U.S. flag

An official website of the United States government

Official websites use .gov
A .gov website belongs to an official government organization in the United States.

Secure .gov websites use HTTPS
A lock ( ) or https:// means you’ve safely connected to the .gov website. Share sensitive information only on official, secure websites.

Analytical Ultracentrifugation of Carbon Nanotubes

Published

Author(s)

Jeffrey A. Fagan

Abstract

Sedimentation velocity (SV) experiments on dispersed nanoparticles are a powerful method for determining otherwise hard to evaluate properties of the nanoparticle such as the density and size of the adsorbed interfacial layer, or for a direct evaluation of the entire distribution of a property such as particle size. The ability to measure these properties in situ in either aqueous or non-aqueous media, and via multiple detection techniques, provides information not readily available through other methods such as electron microscopy. My research has focused in particular on utilizing the capabilities of sedimentation velocity methods for the characterization of single-wall carbon nanotubes (SWCNTs). Single-wall carbon nanotubes are a family of chemical species comprised entirely of a “rolled up” single layer hexagonal lattice of carbon. Depending on the diameter of the formed cylinder, and the vector of the hexagonal lattice relative to the tube axis, these nanoparticles can be metallic, semi-metallic or semi-conducting, each having unique optical, mechanical, thermal, and electrical properties. Many of the applications for this set of materials however depend on the properties of the material when dispersed in the liquid phase, or contain liquid phase processing steps. The key aspects of liquid phase dispersion and processing though hinge on controlling the properties of the interfacial layer between the nanotube and the solution to enable dispersion, selective fractionation and/or biocompatibility. Density contrast variation methods combined with sedimentation velocity experiments provide a high resolution methodology for evaluating this interface. I will present results detailing the use of such density contrast techniques on the characterization of the interfacial layer on specific SWCNT species that demonstrate the power of analytical ultracentrifugation to resolve this interfacial layer. Separately, a second critical factor for SWCNT use in dispersion fo
Citation
BEckman Coulter Webinars

Keywords

SWCNT, nanotube, analytical ultracentrifugation

Citation

Fagan, J. (2014), Analytical Ultracentrifugation of Carbon Nanotubes, BEckman Coulter Webinars, [online], https://www.beckmancoulter.com/wsrportal/wsr/research-and-discovery/products-and-services/centrifugation-analytical/webinar-symposium/index.htm (Accessed August 9, 2022)
Created November 26, 2014, Updated March 21, 2017