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3d过渡金属掺杂二维GaO中杂质能级的作用

Roles of Impurity Levels in 3d Transition Metal-Doped Two-Dimensional GaO.

作者信息

Zeng Hui, Ma Chao, Li Xiaowu, Fu Xi, Gao Haixia, Wu Meng

机构信息

College of Science, Hunan University of Science and Engineering, Yongzhou 425199, China.

College of Materials Science and Engineering, Hunan University, Changsha 410082, China.

出版信息

Materials (Basel). 2024 Sep 18;17(18):4582. doi: 10.3390/ma17184582.

DOI:10.3390/ma17184582
PMID:39336322
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11433155/
Abstract

Doping engineering is crucial for both fundamental science and emerging applications. While transition metal (TM) dopants exhibit considerable advantages in the tuning of magnetism and conductivity in bulk GaO, investigations on TM-doped two-dimensional (2D) GaO are scarce, both theoretically and experimentally. In this study, the detailed variations in impurity levels within 3d TM-doped 2D GaO systems have been explored via first-principles calculations using the generalized gradient approximation (GGA) +U method. Our results show that the Co impurity tends to incorporate on the tetrahedral GaII site, while the other dopants favor square pyramidal GaI sites in 2D GaO. Moreover, Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu and Zn are the energetically favorable charge states. Importantly, a transition from n-type to p-type conductivity occurs at the threshold Cu element as determined by the defect formation energies and partial density of states (PDOS), which can be ascribed to the shift from electron doping to hole doping with respect to the increase in the atomic number in the 3d TM group. Moreover, the spin configurations in the presence of the square pyramidal and tetrahedral coordinated crystal field effects are investigated in detail, and a transition from high-spin to low-spin arrangement is observed. As the atomic number of the 3d TM dopant increases, the percentage contribution of O ions to the total magnetic moment significantly increases due to the electronegativity effect. Additionally, the formed 3d bands for most TM dopants are located near the Fermi level, which can be of significant benefit to the transformation of the absorbing region from ultraviolet to visible/infrared light. Our results provide theoretical guidance for designing 2D GaO towards optoelectronic and spintronic applications.

摘要

掺杂工程对于基础科学和新兴应用都至关重要。虽然过渡金属(TM)掺杂剂在调节块状GaO的磁性和导电性方面具有显著优势,但关于TM掺杂二维(2D)GaO的研究在理论和实验上都很匮乏。在本研究中,通过使用广义梯度近似(GGA)+U方法的第一性原理计算,探索了3d TM掺杂2D GaO系统中杂质能级的详细变化。我们的结果表明,Co杂质倾向于掺入四面体GaII位点,而其他掺杂剂在2D GaO中更倾向于正方锥GaI位点。此外,Sc、Ti、V、Cr、Mn、Fe、Co、Ni、Cu和Zn是能量上有利的电荷态。重要的是,根据缺陷形成能和态密度(PDOS)确定,在阈值Cu元素处发生了从n型到p型导电性的转变,这可归因于随着3d TM族原子序数的增加,从电子掺杂到空穴掺杂的转变。此外,详细研究了在正方锥和四面体配位晶体场效应存在下的自旋构型,并观察到从高自旋到低自旋排列的转变。随着3d TM掺杂剂原子序数的增加,由于电负性效应,O离子对总磁矩的贡献百分比显著增加。此外,大多数TM掺杂剂形成的3d能带位于费米能级附近,这对于吸收区域从紫外光到可见光/红外光的转变可能具有显著益处。我们的结果为设计用于光电子和自旋电子应用的2D GaO提供了理论指导。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4440/11433155/cf75a6721aaa/materials-17-04582-g008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4440/11433155/cf75a6721aaa/materials-17-04582-g008.jpg
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