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Park JH, Cho DH, Moon Y, et al. Designed three-dimensional freestanding single-crystal carbon architectures. ACS Nano. 2014;8(11):11657-65doi: 10.1021/nn504956h.
Park, J. H., Cho, D. H., Moon, Y., Shin, H. C., Ahn, S. J., Kwak, S. K., Shin, H. J., Lee, C., & Ahn, J. R. (2014). Designed three-dimensional freestanding single-crystal carbon architectures. ACS nano, 8(11), 11657-65. https://doi.org/10.1021/nn504956h
Park, Ji-Hoon, et al. "Designed three-dimensional freestanding single-crystal carbon architectures." ACS nano vol. 8,11 (2014): 11657-65. doi: https://doi.org/10.1021/nn504956h
Park JH, Cho DH, Moon Y, Shin HC, Ahn SJ, Kwak SK, Shin HJ, Lee C, Ahn JR. Designed three-dimensional freestanding single-crystal carbon architectures. ACS Nano. 2014 Nov 25;8(11):11657-65. doi: 10.1021/nn504956h. Epub 2014 Oct 29. PMID: 25329767.
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ACS Nano. 2014 Nov 25;8(11):11657-65. doi: 10.1021/nn504956h. Epub 2014 Oct 29.

Designed three-dimensional freestanding single-crystal carbon architectures.

ACS nano

Ji-Hoon Park, Dae-Hyun Cho, Youngkwon Moon, Ha-Chul Shin, Sung-Joon Ahn, Sang Kyu Kwak, Hyeon-Jin Shin, Changgu Lee, Joung Real Ahn

Affiliations

  1. Department of Physics, Sungkyunkwan University , Suwon 440-746, Republic of Korea.

PMID: 25329767 DOI: 10.1021/nn504956h

Abstract

Single-crystal carbon nanomaterials have led to great advances in nanotechnology. The first single-crystal carbon nanomaterial, fullerene, was fabricated in a zero-dimensional form. One-dimensional carbon nanotubes and two-dimensional graphene have since followed and continue to provide further impetus to this field. In this study, we fabricated designed three-dimensional (3D) single-crystal carbon architectures by using silicon carbide templates. For this method, a designed 3D SiC structure was transformed into a 3D freestanding single-crystal carbon structure that retained the original SiC structure by performing a simple single-step thermal process. The SiC structure inside the 3D carbon structure is self-etched, which results in a 3D freestanding carbon structure. The 3D carbon structure is a single crystal with the same hexagonal close-packed structure as graphene. The size of the carbon structures can be controlled from the nanoscale to the microscale, and arrays of these structures can be scaled up to the wafer scale. The 3D freestanding carbon structures were found to be mechanically stable even after repeated loading. The relationship between the reversible mechanical deformation of a carbon structure and its electrical conductance was also investigated. Our method of fabricating designed 3D freestanding single-crystal graphene architectures opens up prospects in the field of single-crystal carbon nanomaterials and paves the way for the development of 3D single-crystal carbon devices.

Keywords: atomic force microscopy; freestanding structure; graphene; three-dimensional architecture

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