A bottom-up approach for controlled deformation of carbon nanotubes through blistering of supporting substrate surface

Abstract : Tuning the band structure and, in particular, gap opening in 1D and 2D materials through their deformation is a promising approach for their application in modern semiconductor devices. However, there is an essential breach between existing laboratory scale methods applied for deformation of low-dimensional materials and the needs of large-scale production. In this work, we propose a novel method which is potentially well compatible with high end technological applications: single-walled carbon nanotubes (SWCNTs) first deposited on the flat surface of a supporting wafer, which has been pre-implanted with H + and He + ions, are deformed in a controlled and repetitive manner over blisters formed after subsequent thermal annealing. By using resonant Raman spectroscopy, we demonstrate that the SWCNTs clamped by metallic stripes at their ends are deformed over blisters to an average tensile strain of 0.15±0.03%, which is found to be in a good agreement with the value calculated taking into account blister's dimensions. The principle of the technique may be applied to other 1D and 2D materials in perspective.
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V Prudkovskiy, F. Iacovella, K Katin, M Maslov, Nikolay Cherkashin. A bottom-up approach for controlled deformation of carbon nanotubes through blistering of supporting substrate surface. Nanotechnology, Institute of Physics, 2018, 29 (36), pp.365304. ⟨10.1088/1361-6528/aacc5d⟩. ⟨hal-01827571⟩

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