Upright standing graphene formation on substrates

Qinghong Yuan; Hong Hu; Junfeng Gao; Feng Ding; Zhifeng Liu; Boris I. Yakobson

doi:10.1021/ja2037854

Upright standing graphene formation on substrates

Qinghong Yuan
, Hong Hu
, Junfeng Gao
, Feng Ding^*
, Zhifeng Liu
, Boris I. Yakobson

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

We propose integrating graphene nanoribbons (GNRs) onto a substrate in an upright position whereby they are chemically bound to the substrate at the basal edge. Extensive ab initio calculations show that both nickel (Ni)- and diamond-supported upright GNRs are feasible for synthesis and are mechanically robust. Moreover, the substrate-supported GNRs display electronic and magnetic properties nearly the same as those of free-standing GNRs. Due to the extremely small footprint of an upright GNR on a substrate, standing GNRs are ideal building blocks for synthesis of subnanometer electronic or spintronic devices. Theoretically, standing GNR-based microchips with field-effect transistor (FET) densities up to 10¹³ per cm² are achievable.

Original language	English
Pages (from-to)	16072-16079
Number of pages	8
Journal	Journal of the American Chemical Society
Volume	133
Issue number	40
DOIs	https://doi.org/10.1021/ja2037854
State	Published - 12 Oct 2011
Externally published	Yes

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10.1021/ja2037854

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title = "Upright standing graphene formation on substrates",

abstract = "We propose integrating graphene nanoribbons (GNRs) onto a substrate in an upright position whereby they are chemically bound to the substrate at the basal edge. Extensive ab initio calculations show that both nickel (Ni)- and diamond-supported upright GNRs are feasible for synthesis and are mechanically robust. Moreover, the substrate-supported GNRs display electronic and magnetic properties nearly the same as those of free-standing GNRs. Due to the extremely small footprint of an upright GNR on a substrate, standing GNRs are ideal building blocks for synthesis of subnanometer electronic or spintronic devices. Theoretically, standing GNR-based microchips with field-effect transistor (FET) densities up to 1013 per cm2 are achievable.",

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T1 - Upright standing graphene formation on substrates

AU - Yuan, Qinghong

AU - Hu, Hong

AU - Gao, Junfeng

AU - Ding, Feng

AU - Liu, Zhifeng

AU - Yakobson, Boris I.

PY - 2011/10/12

Y1 - 2011/10/12

N2 - We propose integrating graphene nanoribbons (GNRs) onto a substrate in an upright position whereby they are chemically bound to the substrate at the basal edge. Extensive ab initio calculations show that both nickel (Ni)- and diamond-supported upright GNRs are feasible for synthesis and are mechanically robust. Moreover, the substrate-supported GNRs display electronic and magnetic properties nearly the same as those of free-standing GNRs. Due to the extremely small footprint of an upright GNR on a substrate, standing GNRs are ideal building blocks for synthesis of subnanometer electronic or spintronic devices. Theoretically, standing GNR-based microchips with field-effect transistor (FET) densities up to 1013 per cm2 are achievable.

AB - We propose integrating graphene nanoribbons (GNRs) onto a substrate in an upright position whereby they are chemically bound to the substrate at the basal edge. Extensive ab initio calculations show that both nickel (Ni)- and diamond-supported upright GNRs are feasible for synthesis and are mechanically robust. Moreover, the substrate-supported GNRs display electronic and magnetic properties nearly the same as those of free-standing GNRs. Due to the extremely small footprint of an upright GNR on a substrate, standing GNRs are ideal building blocks for synthesis of subnanometer electronic or spintronic devices. Theoretically, standing GNR-based microchips with field-effect transistor (FET) densities up to 1013 per cm2 are achievable.

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DO - 10.1021/ja2037854

M3 - 文章

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VL - 133

SP - 16072

EP - 16079

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 40

ER -

Upright standing graphene formation on substrates

Abstract

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