![malvern zetasizer nano s malvern zetasizer nano s](https://pbs.twimg.com/media/Cn6hGbwUsAEOEzw.jpg)
Measurements of hydrodynamic diameter, made using the Zetasizer Nano S, have proved especially helpful because the hydrodynamic diameter of the functionalized CNTs has been shown to correlate directly with the extent of CNT functionalization and solubility.
![malvern zetasizer nano s malvern zetasizer nano s](https://cdn.shopify.com/s/files/1/0257/8237/products/Example_DLS_Report.png)
A range of analytical methods is used to assess the extent and result of functionalization, under different reaction conditions. This approach has the potential to enable functionalized CNT manufacture with shorter reaction times and under relatively benign conditions, low temperature and pressure, thereby reducing the cost of production.
![malvern zetasizer nano s malvern zetasizer nano s](https://i.ytimg.com/vi/UYxBU-6HVnE/hqdefault.jpg)
The focus of research at the university is the development of optimized continuous flow reaction systems for CNT functionalization.
#Malvern zetasizer nano s full
The Zetasizer Nano is proving to be an easy-to-use tool for tracking and optimizing the functionalization reactions used to induce solubility.įor full details of the study please refer to the recently published paper “Chemistry of Carbon Nanotubes in Flow” via. One of the benefits of using soluble CNTs is that they are amenable to solution-based, low-cost, commercial manufacturing methods. Malvern, UK – New research from the University of Padova in Italy shows how the Zetasizer Nano S, a nanomaterial and molecular characterization system from Malvern Instruments, is supporting the development of soluble carbon nanotubes (CNTs).ĬNTs exhibit unique electronic, optical, mechanical and structural properties and are emerging as potentially important for a number of industrial applications including organic photovoltaic cells.