Carrier-Tunable Magnetic Ordering in Vanadium-Naphthalene Sandwich Nanowires

Zhuhua Zhang; Xiaojun Wu; Wanlin Guo; Xiao Cheng Zeng

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Carrier-Tunable Magnetic Ordering in Vanadium-Naphthalene Sandwich Nanowires

机译：钒-萘夹心纳米线中的载子可调磁性有序。

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We report results of first-principles calculation of novel NpTM_2 (Np = naphthalene; TM = V, Mn, Ti, Nb) sandwich nanowires. Most importantly, we find that the magnetic ordering in the NpV_2 nanowire can be adjusted by changing its charge state. Its intrinsic antiferromagnetic ordering can be switched to ferromagnetic ordering by injecting electrons, whereas injecting holes to the nanowire can further stabilize the antiferromagnetic state. This carrier-tunable magnetic ordering appears to be unique to the NpV_2 nanowire. Moreover, we find that the bonding between the two nearest-neighbor metal atoms plays a key role in controlling the magnetic coupling of charge-neutral NpTM_2 nanowires. We predict that the NpMn_2 nanowire is ferromagnetic while the NpTi_2 and NpNb_2 nanowires are antiferromagnetic.

机译：我们报告新型NpTM_2（Np =萘； TM = V，Mn，Ti，Nb）夹心纳米线的第一性原理计算结果。最重要的是，我们发现可以通过更改NpV_2纳米线的电荷状态来调整其磁序。可以通过注入电子将其固有的反铁磁有序转换为铁磁有序，而向纳米线注入空穴可以进一步稳定反铁磁状态。 NpV_2纳米线似乎具有这种可调节载流子的磁性顺序。此外，我们发现两个最邻近的金属原子之间的键合在控制电荷中性NpTM_2纳米线的磁耦合中起关键作用。我们预测NpMn_2纳米线是铁磁性的，而NpTi_2和NpNb_2纳米线是反铁磁性的。

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来源
《Journal of the American Chemical Society》 |2010年第30期|p.10215-10217|共3页
作者
Zhuhua Zhang; Xiaojun Wu; Wanlin Guo; Xiao Cheng Zeng;
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作者单位

Institute of Nano Science, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China Department of Chemistry, University of Nebraska-Lincoln, Lincoln, Nebraska 68588;

rnDepartment of Chemistry, University of Nebraska-Lincoln, Lincoln, Nebraska 68588 Department of Materials of Science and Engineering, University of Science and Technology of China, Hefei 230026, China;

rnInstitute of Nano Science, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China;

rnDepartment of Chemistry, University of Nebraska-Lincoln, Lincoln, Nebraska 68588;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
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入库时间 2022-08-18 03:15:44

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1. Carrier-Tunable Magnetic Ordering in Vanadium−Naphthalene Sandwich Nanowires [J] . Zhuhua Zhang Journal of the American Chemical Society . 2010,第30期

机译：钒-萘夹心纳米线中的载子可调磁性有序。
2. The spin-filter capability and giant magnetoresistance effect in vanadium-naphthalene sandwich cluster [J] . Zhi Yang, Baolong Zhang, Xuguang Liu, Organic Electronics . 2013,第11期

机译：钒-萘夹心簇的自旋过滤能力和巨大的磁阻效应
3. From vanadium naphthalene (V _(n -1)Np _n) sandwich clusters to VNp sandwich nanowire: Structural, energetic, electronic, and magnetic properties [J] . Li Y., Zhou Z., Chen Z. The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2012,第6期

机译：从钒萘（V _（n -1）Np _n）夹心簇到VNp夹心纳米线：结构，能量，电子和磁性
4. Study on the magnetization reversal process in a magnetic nanowire and a magnetic dot observed by magnetic field sweeping magnetic force microscopy measurements (invited) [C] . Yasushi Endo, Hideki Fujimoto, Shinya Kumano Annual Conference on Magnetism and Magnetic Materials . 2008

机译：磁场扫描磁力显微镜测量磁性纳米线中磁化反转过程的研究（邀请）
5. The Study of a Ferromagnetic Resonance Measurement System Characterizing Magnetic Nanowires. [D] . Zhou, Wen. 2019

机译：磁纳米线的铁磁共振测量系统的研究。
6. Coupled Néel domain wall motion in sandwiched perpendicular magnetic anisotropy nanowires [O] . I. Purnama, I. S. Kerk, G. J. Lim, -1

机译：夹层垂直磁各向异性纳米线的耦合Néel畴壁运动
7. The bonding characteristics and electronic and magnetic properties of organometallic sandwich clusters and nanowires [O] . Xiaojing Yao, Xiuyun Zhang, Jinlan Wang 2015

机译：有机金属夹层簇和纳米线的粘合特性和电子和磁性和磁性特性

Carrier-Tunable Magnetic Ordering in Vanadium-Naphthalene Sandwich Nanowires

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