Chaoqun Feng scite author profile

Using the concept of "cloning", we report herein a rational approach to grow single-walled carbon nanotubes (SWNTs) with controlled chirality via an open-end growth mechanism. Specifically, by using open-end SWNTs as "seeds/catalysts" (without metal catalysts), "new/duplicate" SWNTs could be grown and cloned from the parent segments via an open-end growth mechanism. Using this strategy, we have measured more than 600 short seed segments and have found that the yield of cloning is relatively low (around 9%). This yield can be greatly improved up to 40% by growing SWNTs on quartz substrate. Atomic force microscopy and micro resonance Raman spectroscopy characterization indicate that the parent nanotube and the duplicate nanotube have the same structure. These findings provide a potential approach for growing SWNTs with controlled chirality, which are important for the application of SWNTs in nanoelectronics.

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Crinkling Ultralong Carbon Nanotubes into Serpentines by a Controlled Landing Process

Yao

Dai

Feng

et al. 2009

Advanced Materials

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Ultrahigh secondary electron emission of carbon nanotubes

Luo

Warner

Feng

et al. 2010

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Chaoqun Feng

“Cloning” of Single-Walled Carbon Nanotubes via Open-End Growth Mechanism

Crinkling Ultralong Carbon Nanotubes into Serpentines by a Controlled Landing Process

Ultrahigh secondary electron emission of carbon nanotubes

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