Synthesis and mechanistic study of in situ halogen/nitrogen dual-doping in graphene tailored by stepwise pyrolysis of ionic liquids

Authors
Park, Ok-KyungKim, Hyun JooHwang, Jun YeonLee, Dong SuKoo, JahyunLee, HoonkyungYu, Jong-SungKu, Bon-CheolLee, Jae Kwan
Issue Date
2015-03-20
Publisher
IOP PUBLISHING LTD
Citation
NANOTECHNOLOGY, v.26, no.11
Abstract
New halogen/nitrogen dual-doped graphenes (X/N-G) with thermally tunable doping levels are synthesized via the thermal reduction of graphite oxide (GO) with stepwise-pyrolyzed ionic liquids. The doping process of halogen and nitrogen into the graphene lattice proceeds via substitutional or covalent bonding through the physisorption or chemisorption of in situ pyrolyzed dopant precursors. The doping process is performed by heating to 300-400 degrees C of ionic liquid, and the chemically assisted reduction of GO is facilitated by ionic iodine, resulting in I/ N-G materials possessing about three and two orders of magnitude higher conductivity (similar to 22 200 S m(-1)) and charge carrier density (similar to 1021 cm(-3)), compared to those of thermally reduced GO. The thermally tunable doping levels of halogen in X/N-G significantly increase the conductivity of doped graphene to similar to 27 800 S m(-1).
Keywords
NITROGEN; NITROGEN; graphene; ionic liquid; dual doping; pyrolysis; electrical conductivity
ISSN
0957-4484
URI
https://pubs.kist.re.kr/handle/201004/125652
DOI
10.1088/0957-4484/26/11/115601
Appears in Collections:
KIST Article > 2015
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