2011 Annual Meeting
(420a) Solution Spinning of Neat Carbon Nanotube Fiber, Effect of Carbon Nanotube Length and Processing
Authors
Matteo Pasquali - Presenter, Rice University
Natnael Behabtu - Presenter, Rice University
Colin C. Young - Presenter, Rice University
Dmitri Tsentalovich - Presenter, Rice University
A. Ma - Presenter, Rice University
F. Matteni - Presenter, Rice University
A. Bengio - Presenter, Rice University
Yeshayahu Talmon - Presenter, Technion-Israel Institute of Technology
O. Kleinerman - Presenter, Technion-Israel Institute of Technology
J. Schmidt - Presenter, Technion-Israel Institute of Technology
E. Kesselman - Presenter, Technion-Israel Institute of Technology
Yachin Cohen - Presenter, Technion-Israel Institute of Technology
Marcin Otto - Presenter, Teijin Aramid BV
R. Hoogerwerf - Presenter, Teijin Aramid BV
R. Waarbeek - Presenter, Teijin Aramid BV
J. deJong - Presenter, Teijin Aramid BV
Transferring the exceptional single molecule properties of carbon nanotubes (CNTs) into macroscopic articles such as fibers and films has been a major challenge in the past two decades. Two approaches have merged. The first is solid state processing, where fibers and films are directly spun from the synthesis reactor or nanotube forest. The second is wet spinning, where carbon nanotubes are first dissolved and spun in fibers or cast into films.
Here we show recent progress on super-acid solution spinning. Nanotube length and quality have a significant effect on processability, mechanical and electrical properties. We also show the impact of processing variables on fiber alignment and properties and demonstrate process scalability by demonstrating high throughput spinning, which is orders-of-magnitude higher than solid state processing.