Chemical vapour deposition of freestanding sub-60 nm graphene gyroids

Tomasz Cebo; Adrianus I. Aria; James A. Dolan; Robert S. Weatherup; Kenichi Nakanishi; Piran R. Kidambi; Giorgio Divitini; Caterina Ducati; Ullrich Steiner; Stephan Hofmann

doi:10.1063/1.4997774

Chemical vapour deposition of freestanding sub-60 nm graphene gyroids

Tomasz Cebo, Adrianus I. Aria, James A. Dolan, Robert S. Weatherup, Kenichi Nakanishi, Piran R. Kidambi, Giorgio Divitini, Caterina Ducati, Ullrich Steiner, Stephan Hofmann^*

^*Corresponding author for this work

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Abstract

The direct chemical vapour deposition of freestanding graphene gyroids with controlled sub-60 nm unit cell sizes is demonstrated. Three-dimensional (3D) nickel templates were fabricated through electrodeposition into a selectively voided triblock terpolymer. The high temperature instability of sub-micron unit cell structures was effectively addressed through the early introduction of the carbon precursor, which stabilizes the metallized gyroidal templates. The as-grown graphene gyroids are self-supporting and can be transferred onto a variety of substrates. Furthermore, they represent the smallest free standing periodic graphene 3D structures yet produced with a pore size of tens of nm, as analysed by electron microscopy and optical spectroscopy. We discuss generality of our methodology for the synthesis of other types of nanoscale, 3D graphene assemblies, and the transferability of this approach to other 2D materials.

Original language	English
Article number	253103
Journal	Applied Physics Letters
Volume	111
DOIs	https://doi.org/10.1063/1.4997774
Publication status	Published - 18 Dec 2017

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title = "Chemical vapour deposition of freestanding sub-60 nm graphene gyroids",

abstract = "The direct chemical vapour deposition of freestanding graphene gyroids with controlled sub-60 nm unit cell sizes is demonstrated. Three-dimensional (3D) nickel templates were fabricated through electrodeposition into a selectively voided triblock terpolymer. The high temperature instability of sub-micron unit cell structures was effectively addressed through the early introduction of the carbon precursor, which stabilizes the metallized gyroidal templates. The as-grown graphene gyroids are self-supporting and can be transferred onto a variety of substrates. Furthermore, they represent the smallest free standing periodic graphene 3D structures yet produced with a pore size of tens of nm, as analysed by electron microscopy and optical spectroscopy. We discuss generality of our methodology for the synthesis of other types of nanoscale, 3D graphene assemblies, and the transferability of this approach to other 2D materials.",

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AU - Cebo, Tomasz

AU - Aria, Adrianus I.

AU - Dolan, James A.

AU - Weatherup, Robert S.

AU - Nakanishi, Kenichi

AU - Kidambi, Piran R.

AU - Divitini, Giorgio

AU - Ducati, Caterina

AU - Steiner, Ullrich

AU - Hofmann, Stephan

PY - 2017/12/18

Y1 - 2017/12/18

N2 - The direct chemical vapour deposition of freestanding graphene gyroids with controlled sub-60 nm unit cell sizes is demonstrated. Three-dimensional (3D) nickel templates were fabricated through electrodeposition into a selectively voided triblock terpolymer. The high temperature instability of sub-micron unit cell structures was effectively addressed through the early introduction of the carbon precursor, which stabilizes the metallized gyroidal templates. The as-grown graphene gyroids are self-supporting and can be transferred onto a variety of substrates. Furthermore, they represent the smallest free standing periodic graphene 3D structures yet produced with a pore size of tens of nm, as analysed by electron microscopy and optical spectroscopy. We discuss generality of our methodology for the synthesis of other types of nanoscale, 3D graphene assemblies, and the transferability of this approach to other 2D materials.

AB - The direct chemical vapour deposition of freestanding graphene gyroids with controlled sub-60 nm unit cell sizes is demonstrated. Three-dimensional (3D) nickel templates were fabricated through electrodeposition into a selectively voided triblock terpolymer. The high temperature instability of sub-micron unit cell structures was effectively addressed through the early introduction of the carbon precursor, which stabilizes the metallized gyroidal templates. The as-grown graphene gyroids are self-supporting and can be transferred onto a variety of substrates. Furthermore, they represent the smallest free standing periodic graphene 3D structures yet produced with a pore size of tens of nm, as analysed by electron microscopy and optical spectroscopy. We discuss generality of our methodology for the synthesis of other types of nanoscale, 3D graphene assemblies, and the transferability of this approach to other 2D materials.

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Chemical vapour deposition of freestanding sub-60 nm graphene gyroids

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