Pulsed Growth of Vertically Aligned Nanotube Arrays with Variable Density

• Published in: ACS nano Vol. 4; no. 12; pp. 7573 - 7581
• Main Authors: Jackson, Jeremy J, Puretzky, Alex A, More, Karren L, Rouleau, Christopher M, Eres, Gyula, Geohegan, David B
• Format: Journal Article
• Language: English
• Published: United States American Chemical Society 28.12.2010
• Subjects: CARBON; CHEMICAL VAPOR DEPOSITION; density; Gases - chemistry; in situ diagnostics; KINETICS; MATERIALS SCIENCE; Microscopy, Electron, Scanning; Nanotechnology - instrumentation; nanotube; NANOTUBES; Nanotubes - chemistry; REFLECTIVITY; SYNTHESIS; TRANSMISSION ELECTRON MICROSCOPY; in situ diagnostics; pulsed CVD; Z-STEM; density; carbon nanotube array; optical reflectivity
• ISSN: 1936-0851; 1936-086X
• DOI: 10.1021/nn102029y

The density of vertically aligned carbon nanotube arrays is shown to vary significantly during normal growth by chemical vapor deposition and respond rapidly to changes in feedstock flux. Pulsing the feedstock gas to repeatedly stop and start nanotube growth is shown to induce density variations up to a factor of 1.6 within ca. 1−2 μm long layers, allowing the synthesis of new array architectures with distinct regions of controllable length and density variation. Z-Contrast scanning transmission electron microscopy of corresponding sections of the arrays is used to provide unambiguous measurements of these density variations. Time-resolved optical reflectivity measurements of the height and optical extinction coefficient of the growing arrays are shown to provide a real-time diagnostic of both array density and growth kinetics.