Tunable Synthesis of Predominant Semi-Ionic and Covalent Fluorine Bonding States on a Graphene Surface

Authors
Lee, Jae-WonJeong, Seung-PilYou, Nam-HoMoon, Sook-Young
Issue Date
2021-04
Publisher
MDPI
Citation
NANOMATERIALS, v.11, no.4
Abstract
In this study, fluorinated graphene (FG) was synthesized via a hydrothermal reaction. Graphene oxides (GOs) with different oxygen bonding states and oxygen contents (GO(F), GO(P), and GO(HU)) were used as starting materials. GO(F) and GO(P) are commercial-type GOs from Grapheneall. GO(HU) was prepared using a modified Hummers method. The synthesized FGs from GO(F), GO(P), and GO(HU) are denoted as FG(F), FG(P), and FG(HU), respectively. The F atoms were bound to the graphene surface with predominantly semi-ionic or covalent bonding depending on the GO oxygen state. FG(F) and FG(HU) exhibited less extensive fluorination than FG(P) despite the same or higher oxygen contents compared with that in FG(P). This difference was attributed to the difference in the C=O content of GOs because the C=O bonds in GO primarily produce covalent C-F bonds. Thus, FG(F) and FG(HU) mainly exhibited semi-ionic C-F bonds. The doped F atoms were used to tune the electronic properties and surface chemistry of graphene. The fluorination reaction also improved the extent of reduction of GO.
Keywords
fluorinated graphene; hydrothermal synthesis; semi-ionic bonding; tunable electronic properties
ISSN
2079-4991
URI
https://pubs.kist.re.kr/handle/201004/117209
DOI
10.3390/nano11040942
Appears in Collections:
KIST Article > 2021
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