在 Na 催化下加速镧系元素与石墨的互钙化

arXiv - PHYS - Superconductivity Pub Date : 2024-09-03 DOI:arxiv-2409.01624

Akira Iyo, Hiroshi Fujihisa, Yoshito Gotoh, Shigeyuki Ishida, Hiroshi Eisaki, Hiraku Ogino, Kenji Kawashima

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引用次数: 0

摘要

众所周知，镧系元素（$Ln$）很难插层到石墨中。我们研究了使用 Na 催化形成$Ln$插层石墨的可能性，并成功地以高产率快速合成了$Ln$C$$_6$（$Ln$ = Sm、Eu 和 Yb）。合成过程包括通过 Na 和 C 的混合形成反应中间体 NaC$_x$，然后在加热过程中与 $Ln$ 反应形成 $Ln$C$_6$。通过两步法制造出了烧结良好的低残留 Na 浓度（$Ln$:Na = 98:2）$Ln$C$_6$颗粒。通过粉末 X 射线衍射和电电阻率测量，可以对这些颗粒进行 $Ln$C$_6$ 评估。这项研究凸显了 Na 催化方法的多功能性，并为 Ln$C$_6$ 的快速量产奠定了基础，有望应用于超导材料和可充电电池材料。

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Accelerated Lanthanide Intercalation into Graphite Catalyzed by Na

Lanthanides ($Ln$) are notoriously difficult to intercalate into graphite. We investigated the possibility of using Na to catalyze the formation of $Ln$-intercalated graphite and successfully synthesized $Ln$C$_6$ ($Ln$ = Sm, Eu, and Yb) significantly rapidly in high yields. The synthesis process involves the formation of the reaction intermediate NaC$_x$, through the mixing of Na and C, which subsequently reacts with $Ln$ upon heating to form $Ln$C$_6$. Well-sintered $Ln$C$_6$ pellets with low residual Na concentrations ($Ln$:Na = 98:2) were fabricated by the two-step method. The pellets enabled the evaluation of $Ln$C$_6$ by powder X-ray diffraction and electrical resistivity measurements. This study highlights the versatility of the Na-catalyzed method and lays the foundation for the rapid mass production of $Ln$C$_6$, with potential applications in superconducting and rechargeable battery materials.

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arXiv - PHYS - Superconductivity

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