Transition from single to multi-walled carbon nanotubes grown by inductively coupled plasma enhanced chemical vapor deposition

Abstract: In this work a simple and up-scalable technique for creating arrays of high purity carbon nanotubes via plasma enhanced chemical vapor deposition is demonstrated. Inductively coupled plasma enhanced chemical vapor deposition was used with methane and argon mixtures to grow arrays in a repeatable and controllable way. Changing the growth conditions such as temperature and growth time led to a transition between single and multi-walled carbon nanotubes and was investigated. This transition from single to multi-w… Show more

“…These computationally optimized MWCNT microcavities can be fabricated with PECVD method, including the in-plane Si optical waveguides. [29][30][31] . The light can be coupled through input port of these in-plane Si waveguides and spectral measurements can be performed at the output port.…”

Multiwall carbon nanotube microcavity arrays

“…These computationally optimized MWCNT microcavities can be fabricated with PECVD method, including the in-plane Si optical waveguides. [29][30][31] . The light can be coupled through input port of these in-plane Si waveguides and spectral measurements can be performed at the output port.…”

Multiwall carbon nanotube microcavity arrays

Bi-directional catalyst injection in floating catalyst chemical vapor deposition for enhanced carbon nanotube fiber yield

Kinetic study of single-walled carbon nanotube synthesis by thermocatalytic decomposition of methane using floating catalyst chemical vapour deposition