Precise pitch-scaling of carbon nanotube arrays within three-dimensional DNA nanotrenches.

Wei Sun Jie ShenZhao ZhaoNoel ArellanoCharles RettnerJianshi Tang Tianyang Cao Zhiyu Zhou Toan Ta Jason K Streit Jeffrey A Fagan Thomas SchausMing ZhengShu-Jen HanWilliam M ShihHareem T Maune Peng Yin

Published in: Science (New York, N.Y.) (2020)

Precise fabrication of semiconducting carbon nanotubes (CNTs) into densely aligned evenly spaced arrays is required for ultrascaled technology nodes. We report the precise scaling of inter-CNT pitch using a supramolecular assembly method called spatially hindered integration of nanotube electronics. Specifically, by using DNA brick crystal-based nanotrenches to align DNA-wrapped CNTs through DNA hybridization, we constructed parallel CNT arrays with a uniform pitch as small as 10.4 nanometers, at an angular deviation <2° and an assembly yield >95%.

Keyphrases

carbon nanotubes
circulating tumor
single molecule
cell free
nucleic acid
image quality
high density
circulating tumor cells
squamous cell carcinoma
wastewater treatment
magnetic resonance imaging
neoadjuvant chemotherapy
low cost