高带隙六方氮化硼体系中的铁磁性和半金属性
Ferromagnetism and Half-Metallicity in a High-Band-Gap Hexagonal Boron Nitride System.
作者信息
Choudhuri Indrani, Pathak Biswarup
机构信息
Discipline of Chemistry, Indian Institute of Technology (IIT) Indore, Indore. M.P., 453552, India.
Discipline of Metallurgy Engineering and Materials Science, Indian Institute of Technology (IIT) Indore, Indore. M.P., 453552, India.
出版信息
Chemphyschem. 2018 Jan 5;19(1):153-161. doi: 10.1002/cphc.201700759. Epub 2017 Nov 15.
Metal-free half-metallicity is the subject of intense research in the field of spintronics devices. Using density functional theoretical calculations, atom-thin hexagonal boron nitride (h-BN)-based systems are studied for possible spintronics applications. Ferromagnetism is observed in patterned C-doped h-BN systems. Interestingly, such a patterned C-doped h-BN exhibits half-metallicity with a Curie temperature of approximately 324 K at a particular C-doping concentration. It shows half-metallicity more than metal-free systems studied to date. Thus, such a BN-based system can be used to achieve a 100 % spin-polarised current at the Fermi level. Furthermore, this C-doped system shows excellent dynamical, thermal, and mechanical properties. Therefore, a stable metal-free planar ferromagnetic half-metallic h-BN-based system is proposed for use in room-temperature spintronics devices.
无金属半金属性是自旋电子器件领域深入研究的课题。利用密度泛函理论计算,研究了基于原子级薄的六方氮化硼(h-BN)的系统在自旋电子学方面的潜在应用。在图案化的碳掺杂h-BN系统中观察到了铁磁性。有趣的是,这种图案化的碳掺杂h-BN在特定的碳掺杂浓度下表现出半金属性,居里温度约为324 K。它比迄今为止研究的无金属系统表现出更强的半金属性。因此,这种基于BN的系统可用于在费米能级实现100%的自旋极化电流。此外,这种碳掺杂系统还表现出优异的动力学、热学和力学性能。因此,提出了一种稳定的无金属平面铁磁半金属h-BN基系统用于室温自旋电子器件。
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