期刊
FLATCHEM
卷 33, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.flatc.2022.100374
关键词
Ball-milling; Supercritical CO2; Exfoliation; Graphene; Polymer composite
资金
- Sino-Japanese Joint Research Plat-form on energy and environmental industry, China [2017YFE0127100]
- KE JI XING MENG Project [20H100000845]
A highly-efficient and green exfoliation process for graphene was developed using high-energy planetary ball-milling coupled with supercritical carbon dioxide. The yield of graphene reached up to 59% and the exfoliated flakes were highly dispersible in organic solvents. This new process has great potential for commercial applications.
The progress of graphene (GNs) exfoliation by ball milling from laboratory to commercial scale is still facing formidable challenges due to the extremely long milling process, toxic auxiliaries, dispersant, and complex post-purification steps. Herein, a highly-efficient and green exfoliation process using the synergetic effect of high-energy planetary ball-milling coupled with supercritical carbon dioxide (scCO(2)) was developed. The collaborative effect of high-shear force (S-F) of planetary ball mill and CO2 intercalation through the graphite crevices increased the yield of GNs up to 59% under the optimized parameters. The exfoliated GNs flakes were highly dispersible in different organic solvents (eg. N-methyl pyrrolidone, dimethylformamide, and ethanol) and approximate to 71.32 % of GNs were less than 5 layers. The exfoliated GNs revealed a large graphitic domain and micrometer-scale lateral dimension. The electrical conductivity (sigma) of the GNs film was 5.76 x 10(5) S.m(-1). Also, the in-plane and through-plane sigma of the GNs/high-density-polyethylene (GNs/HDPE) nanocomposite achieved 3.59 and 1.37 S.m(-1) at 3% (weight/weight, w/w) of GNs loading amount respectively, encompassing the excellent viability of GNs in a wide range of applications. This new process holds a strong potential to overcome the drawbacks of GNs exfoliation by the common ball milling procedure and could boost the commercial scale-up opportunity.
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