Zhenxing Zhu scite author profile

Carbon nanotubes (CNTs) are promising candidates for smart electronic devices. However, it is challenging to mediate their bandgap or chirality from a vapor-liquid-solid growth process. Here, we demonstrate rate-selected semiconducting CNT arrays based on interlocking between the atomic assembly rate and bandgap of CNTs. Rate analysis confirms the Schulz-Flory distribution which leads to various decay rates as length increases in metallic and semiconducting CNTs. Quantitatively, a nearly ten-fold faster decay rate of metallic CNTs leads to a spontaneous purification of the predicted 99.9999% semiconducting CNTs at a length of 154 mm, and the longest CNT can be 650 mm through an optimized reactor. Transistors fabricated on them deliver a high current of 14 μA μm−1 with on/off ratio around 108 and mobility over 4000 cm2 V−1 s−1. Our rate-selected strategy offers more freedom to control the CNT purity in-situ and offers a robust methodology to synthesize perfectly assembled nanotubes over a long scale.

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Si@Si3N4@C composite with egg-like structure as high-performance anode material for lithium ion batteries

Xiao

Lei

et al. 2020

Energy Storage Materials

131

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Acoustic-assisted assembly of an individual monochromatic ultralong carbon nanotube for high on-current transistors

et al. 2016

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Carbon nanotubes / activated carbon fiber based air filter media for simultaneous removal of particulate matter and ozone

Shen

Zhu

Wei

et al. 2017

Building and Environment

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Zhenxing Zhu

Carbon nanotube bundles with tensile strength over 80 GPa

Rate-selected growth of ultrapure semiconducting carbon nanotube arrays

Si@Si3N4@C composite with egg-like structure as high-performance anode material for lithium ion batteries

Acoustic-assisted assembly of an individual monochromatic ultralong carbon nanotube for high on-current transistors

Carbon nanotubes / activated carbon fiber based air filter media for simultaneous removal of particulate matter and ozone

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