Low-Temperature synthesis of multilayer graphene directly on SiO2 by current-enhanced solid-phase deposition using Ni catalyst

Tomohiro Tamura; Kazuyoshi Ueno

doi:10.35848/1347-4065/ab9165

Low-Temperature synthesis of multilayer graphene directly on SiO₂ by current-enhanced solid-phase deposition using Ni catalyst

Tomohiro Tamura, Kazuyoshi Ueno

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

6 Citations (Scopus)

Abstract

Low-Temperature deposition of multilayer graphene (MLG) directly on devices without transfer process is a critical issue for the realization of device applications of MLG such as interconnects and electrodes. Low-Temperature synthesis of MLG at around 400 °C is obtained by current-enhanced solid-phase deposition (CE-SPD) using Ni as a catalyst, where current is applied to the C/Ni layer during annealing. MLG crystallinity, which is indicated by G/D ratio in Raman spectra, was improved about four times by applying current, compared to that without current at the same temperature. As the current increases, the G/D ratio is improved. It is considered that current has an effect in enhancing the grain-growth of MLG besides Joule's heat and it leads to lower synthesis temperature.

Original language	English
Article number	066501
Journal	Japanese Journal of Applied Physics
Volume	59
Issue number	6
DOIs	https://doi.org/10.35848/1347-4065/ab9165
Publication status	Published - 2020 Jun 1

ASJC Scopus subject areas

Engineering(all)
Physics and Astronomy(all)

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title = "Low-Temperature synthesis of multilayer graphene directly on SiO2 by current-enhanced solid-phase deposition using Ni catalyst",

abstract = "Low-Temperature deposition of multilayer graphene (MLG) directly on devices without transfer process is a critical issue for the realization of device applications of MLG such as interconnects and electrodes. Low-Temperature synthesis of MLG at around 400 °C is obtained by current-enhanced solid-phase deposition (CE-SPD) using Ni as a catalyst, where current is applied to the C/Ni layer during annealing. MLG crystallinity, which is indicated by G/D ratio in Raman spectra, was improved about four times by applying current, compared to that without current at the same temperature. As the current increases, the G/D ratio is improved. It is considered that current has an effect in enhancing the grain-growth of MLG besides Joule's heat and it leads to lower synthesis temperature.",

author = "Tomohiro Tamura and Kazuyoshi Ueno",

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T1 - Low-Temperature synthesis of multilayer graphene directly on SiO2 by current-enhanced solid-phase deposition using Ni catalyst

AU - Tamura, Tomohiro

AU - Ueno, Kazuyoshi

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N2 - Low-Temperature deposition of multilayer graphene (MLG) directly on devices without transfer process is a critical issue for the realization of device applications of MLG such as interconnects and electrodes. Low-Temperature synthesis of MLG at around 400 °C is obtained by current-enhanced solid-phase deposition (CE-SPD) using Ni as a catalyst, where current is applied to the C/Ni layer during annealing. MLG crystallinity, which is indicated by G/D ratio in Raman spectra, was improved about four times by applying current, compared to that without current at the same temperature. As the current increases, the G/D ratio is improved. It is considered that current has an effect in enhancing the grain-growth of MLG besides Joule's heat and it leads to lower synthesis temperature.

AB - Low-Temperature deposition of multilayer graphene (MLG) directly on devices without transfer process is a critical issue for the realization of device applications of MLG such as interconnects and electrodes. Low-Temperature synthesis of MLG at around 400 °C is obtained by current-enhanced solid-phase deposition (CE-SPD) using Ni as a catalyst, where current is applied to the C/Ni layer during annealing. MLG crystallinity, which is indicated by G/D ratio in Raman spectra, was improved about four times by applying current, compared to that without current at the same temperature. As the current increases, the G/D ratio is improved. It is considered that current has an effect in enhancing the grain-growth of MLG besides Joule's heat and it leads to lower synthesis temperature.

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Low-Temperature synthesis of multilayer graphene directly on SiO₂ by current-enhanced solid-phase deposition using Ni catalyst

Abstract

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