One-step synthesis of structural-controlled metal-graphene nanocomposites via flash atomization and plasma-assisted reactions of electrical explosion

Chen Li, Ruoyu Han*, Jie Bai, Yuchen Cao, Wei Yuan, Jiawei Wu*, Pengfei Li, Xi Chen

*此作品的通讯作者

科研成果: 期刊稿件文章同行评审

10 引用 (Scopus)

摘要

Metal-graphene nanocomposites are highly attractive for a wide range of structural and functional applications. One promising approach for their “one-step” synthesis is through electrical explosion, which utilizes high-electric-power pulses to achieve ultrafast heating/quenching rates (dT/dt ∼ 10^10 K/s) of current-carrying conductors. By performing electrical explosion of metallic wire in a graphite-powder-containing tube, hundreds of Joules can be instantaneously confined in 7-cm3 space, leading to intense plasma-material interactions. Our research has yielded two distinct metal-graphene assembly routes: the first involves the graphite nanosheets decorated with metallic nanoparticles (<100 nm-diameter), while the second concerns the nanometal core coated by graphene shell (<10 layers) along with onion-like carbon. Explosion-induced shockwave and its reflection exfoliate graphite powders and initiate turbulent-mixing of the flow field, allowing the atomized metal to quench on graphite nanosheets. Further increasing explosion energy to achieve oscillating-discharge for reaction, strong radiation and kinetic energy of plasmas will sublimate the graphite, cooling to core@shell structures.

源语言英语
文章编号118296
期刊Carbon
213
DOI
出版状态已出版 - 9月 2023

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