石墨烯-氧化石墨烯液态电池的简便制备及其在铂原子液相 STEM 成像中的应用

Masaki Takeguchi, K. Mitsuishi, A. Hashimoto
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摘要

采用一种简便的方法,在聚甲基丙烯酸甲酯片上制造了商用石墨烯,在 TEM 网格上制造了 GO,从而制造出了用于液相扫描透射电子显微镜(STEM)的石墨烯-氧化石墨烯(GO)混合液体电池(LCs)。含有铂纳米颗粒(NPs)和纯水的液相沉积物被有效地制造出来,并通过 STEM 进行观察。它们的成分和厚度是通过 STEM-电子能量损失光谱来表征的。高分辨率(HR)STEM 显示了缓慢移动的 Pt NPs 原子结构以及 LC 薄边缘处快速移动的单个 Pt 原子。在高分辨率 STEM 过程中,由于 LC 具有出色的导电性、导热性和清除放射性物质的能力,因此损伤极小,这表明 LC 非常稳定。
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Facile preparation of graphene-graphene oxide liquid cells and their application in liquid-phase STEM imaging of Pt atoms
Graphene-graphene oxide (GO) hybrid liquid cells (LCs) for liquid-phase scanning transmission electron microscopy (STEM) were fabricated using a facile method with commercial graphene on a polymethyl methacrylate sheet and GO on a TEM grid. LCs containing Pt nanoparticles (NPs) and pure water were efficiently produced and observed via STEM. Their composition and thickness were characterized by STEM-electron energy-loss spectroscopy. High-resolution (HR) STEM revealed slow-moving Pt NPs’ atomic structures and fast-moving single Pt atoms at the LC’s thin edges. Minimal damage during HR STEM indicated stable LCs because of their excellent electrical and thermal conductivities and radiolysis species scavenging ability.
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