A thin film approach for SiC-derived graphene as an on-chip electrode for supercapacitors

A thin film approach for SiC-derived graphene as an on-chip electrode for supercapacitors

We designed a nickel-assisted process to obtain graphene with sheet resistance as low as 80 square−1 from silicon carbide films on Si wafers with highly enhanced surface area. The silicon carbide film acts as both a template and source of graphitic carbon, while, simultaneously, the nickel induces p...

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Veröffentlicht in:Nanotechnology 2015-10, Vol.26 (43), p.434005-434005
Hauptverfasser: Ahmed, Mohsin, Khawaja, Mohamad, Notarianni, Marco, Wang, Bei, Goding, Dayle, Gupta, Bharati, Boeckl, John J, Takshi, Arash, Motta, Nunzio, Saddow, Stephen E, Iacopi, Francesca
Format: Artikel
Sprache:eng
Schlagworte:
Capacitors
Electrodes
Energy storage
Graphene
Nickel
on-chip supercapacitors
Silicon carbide
Supercapacitors
Thin films
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Beschreibung
Zusammenfassung:We designed a nickel-assisted process to obtain graphene with sheet resistance as low as 80 square−1 from silicon carbide films on Si wafers with highly enhanced surface area. The silicon carbide film acts as both a template and source of graphitic carbon, while, simultaneously, the nickel induces porosity on the surface of the film by forming silicides during the annealing process which are subsequently removed. As stand-alone electrodes in supercapacitors, these transfer-free graphene-on-chip samples show a typical double-layer supercapacitive behaviour with gravimetric capacitance of up to 65 F g−1. This work is the first attempt to produce graphene with high surface area from silicon carbide thin films for energy storage at the wafer-level and may open numerous opportunities for on-chip integrated energy storage applications.
ISSN:0957-4484
1361-6528
DOI:10.1088/0957-4484/26/43/434005