Homochiral carbon nanotube van der Waals crystals

Zhi-Chun Zhang; Yi Chen; Peiyue Shen; Jiajun Chen; Sen Wang; Bo Wang; S. Ma; Bosai Lyu; Xianliang Zhou; Shuo Lou; Zhenghan Wu; Yufeng Xie; Chengjia Zhang; Liguo Wang; Kunqi Xu; Haonan Li; Guohua Wang; Kenji Watanabe; Takashi Taniguchi; Dong Qian; Jinfeng Jia; Liang Qi; Xiaoqun Wang; Wei Yang; Guangyu Zhang; Chuanhong Jin; Wengen Ouyang; Zhiwen Shi

doi:10.1126/science.adu1756

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2025

Homochiral carbon nanotube van der Waals crystals

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2025

Vol 387 (6740)

Vol. 387

DOI: 10.1126/science.adu1756

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For applications of single-walled carbon nanotubes (SWNTs) in integrated circuits, it is crucial to have high-tube density arrays of SWNTs that are well aligned and purely semiconducting. In this work, we report on the direct growth of close-packed SWNT arrays on hexagonal boron nitride (hBN) substrates, demonstrating high alignment and uniform chirality within each array. Molecular dynamics simulations suggest that a self-assembly growth mechanism resulted from the intertube van der Waals attraction and the ultralow sliding friction of SWNTs on the atomically flat hBN substrate. Field-effect transistors constructed from the grown SWNT array exhibit high performance at room temperature, with mobilities of up to 2000 square centimeters per volt per second, on/off ratios of ~10⁷, and a maximum current density of ~6 milliamperes per micrometer.

Homochiral carbon nanotube van der Waals crystals

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Kenji Watanabe

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