Extremely Efficient Liquid Exfoliation and Dispersion of Layered Materials by Unusual Acoustic Cavitation

Authors
Han, Joong TarkJang, Jeong InKim, HaenaHwang, Jun YeonYoo, Hyung KeunWoo, Jong SeokChoi, SuaKim, Ho YoungJeong, Hee JinJeong, Seung YolBaeg, Kang-JunCho, KilwonLee, Geon-Woong
Issue Date
2014-05-30
Publisher
NATURE PUBLISHING GROUP
Citation
SCIENTIFIC REPORTS, v.4
Abstract
Layered materials must be exfoliated and dispersed in solvents for diverse applications. Usually, highly energetic probe sonication may be considered to be an unfavourable method for the less defective exfoliation and dispersion of layered materials. Here we show that judicious use of ultrasonic cavitation can produce exfoliated transition metal dichalcogenide nanosheets extraordinarily dispersed in non-toxic solvent by minimising the sonolysis of solvent molecules. Our method can also lead to produce less defective, large graphene oxide nanosheets from graphite oxide in a short time (within 10 min), which show high electrical conductivity (>20,000 S m(-1)) of the printed film. This was achieved by adjusting the ultrasonic probe depth to the liquid surface to generate less energetic cavitation (delivered power similar to 6 W), while maintaining sufficient acoustic shearing (0.73 m s(-1)) and generating additional microbubbling by aeration at the liquid surface.
Keywords
GRAPHENE; GRAPHENE; Two-dimensional materials; chemical physics; Exfoliation; TEM; Electronic properties and materials
ISSN
2045-2322
URI
https://pubs.kist.re.kr/handle/201004/126774
DOI
10.1038/srep05133
Appears in Collections:
KIST Article > 2014
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