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Paper detail

Two-step splitting the expandable graphite for few-layer graphene

Few-layer graphene sheets are prepared by splitting the expanded graphites using a high-power sonication. Atomic-level quantitative scanning transmission electron microscopy (Q-STEM) is employed to carry out the efficient layer statisticsm, enabling global optimization of the experimental conditions. A two-step splitting mechanism is thus revealed, in which the mean layer number was firstly reduced to less than 20 by heating to 1100°C and then tuned to the few-layer region by a 5-minute 104W/litre sonication. Raman spectroscopic analysis confirms the above mechanism and demonstrates that the sheets are largely free of defects and oxides.

preprint2010arXivOpen access
Kaiming LiaoWangfeng DingYuyuan QinZhaoguo LiTaishi ChenJianguo WanFengqi SongMin HanGuanghou WangJianfeng Zhou
cond-mat.mes-hall
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Kaiming LiaoWangfeng DingYuyuan QinZhaoguo LiTaishi ChenJianguo WanFengqi SongMin HanGuanghou WangJianfeng Zhou

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