铁磁性
自旋电子学
居里温度
材料科学
旋转
凝聚态物理
超临界流体
磁化
实现(概率)
化学物理
纳米技术
化学
磁场
物理
有机化学
统计
量子力学
数学
作者
Jian Yang,Bo Gao,Wei Liu,Jiang Du,Qun Xu
出处
期刊:ChemPhysChem
[Wiley]
日期:2023-02-19
卷期号:24 (10): e202200793-e202200793
被引量:7
标识
DOI:10.1002/cphc.202200793
摘要
Abstract The realization of ferromagnetic ordering of two‐dimensional (2D) carbon material graphdiyne (GDY) has attracted great attention due to its promising application in spin semiconductor devices. However, the absence of localized spins makes the pristine GDY intrinsically nonferromagnetic. Herein, we report the realization of robust room‐temperature (RT) ferromagnetism (FM) with Curie temperature ( T C ) up to 325 K for GDY Nanosheets (GDYNs) by supercritical CO 2 (SC CO 2 ). Experimental and theoretical calculations reveal that the new chemical bond of C−O−Si can be formed because of the unique effect of SC CO 2 , which help to enhance the charge transfer and generates long‐range ferromagnetic order. The RT saturation magnetization ( M S ) reaches 1.125 emu/g, which is much higher than that of carbon‐based materials reported up to now. Meanwhile, by changing the conditions of SC CO 2 such as pressure, ferromagnetic responses can be manipulated, which is great for potential spintronics applications of GDY.
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