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16 results on '"Shao, Dingfu"'

1. Interlayer ferroelectric polarization modulated anomalous Hall effects in four-layer MnBi2Te4 antiferromagnets

Author

Niu, Ziyu, Yu, Xiang-Long, Shao, Dingfu, Jing, Xixiang, Hou, Defeng, Li, Xuhong, Sun, Jing, Shi, Junqin, Fan, Xiaoli, and Cao, Tengfei

Subjects
Condensed Matter - Materials Science
Abstract

Van der Waals (vdW) assembly could efficiently modulate the symmetry of two-dimensional (2D) materials that ultimately governs their physical properties. Of particular interest is the ferroelectric polarization being introduced by proper vdW assembly that enables the realization of novel electronic, magnetic and transport properties of 2D materials. Four-layer antiferromagnetic MnBi2Te4 (F-MBT) offers an excellent platform to explore ferroelectric polarization effects on magnetic order and topological transport properties of nanomaterials. Here, by applying symmetry analyses and density-functional-theory calculations, the ferroelectric interface effects on magnetic order, anomalous Hall effect (AHE) or even quantum AHE (QAHE) on the F-MBT are analyzed. Interlayer ferroelectric polarization in F-MBT efficiently violates the PT symmetry (the combination symmetry of central inversion (P) and time reverse (T) of the F-MBT by conferring magnetoelectric couplings, and stabilizes a specific antiferromagnetic order encompassing a ferromagnetic interface in the F-MBT. We predict that engineering an interlayer polarization in the top or bottom interface of F-MBT allows converting F-MBT from a trivial insulator to a Chern insulator. The switching of ferroelectric polarization at the middle interfaces results in a direction reversal of the quantum anomalous Hall current. Additionally, the interlayer polarization of the top and bottom interfaces can be aligned in the same direction, and the switching of polarization direction also reverses the direction of anomalous Hall currents. Overall, our work highlights the occurrence of quantum-transport phenomena in 2D vdW four-layer antiferromagnets through vdW assembly. These phenomena are absent in the bulk or thin-film in bulk-like stacking forms of MnBi2Te4.

Published
2024

2. Physical origin of color changes in lutetium hydride under pressure

Author

Lv, Run, Tu, Wenqian, Shao, Dingfu, Sun, Yuping, and Lu, Wenjian

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

Recently, near-ambient superconductivity was claimed in nitrogen-doped lutetium hydride (LuH$_{3-\delta}$N$_{\epsilon}$) . Unfortunately, all follow-up research still cannot find superconductivity signs in successfully synthesized lutetium dihydride (LuH$_2$) and N-doped LuH$_{2\pm x}$N$_y$. However, a similar intriguing observation was the pressure-induced color changes (from blue to pink and subsequent red). The physical understanding of its origin and the correlation between the color, crystal structure, and chemical composition of Lu-H-N is still lacking. In this work, we theoretically study the optical properties of LuH$_2$, LuH$_3$, and some potential N-doped compounds using the first-principles calculations by considering both interband and intraband contributions. Our results show that LuH$_2$ has an optical reflectivity peak around blue light up to 10 GPa. Under higher pressure, the reflectivity of red light gradually becomes dominant. This evolution is driven by changes in the direct band gap and the Fermi velocity of free electrons under pressure. In contrast, LuH$_3$ exhibits gray and no color change up to 50 GPa. Furthermore, we considered different types of N-doped LuH$_2$ and LuH$_3$. We find that N-doped LuH$_2$ with the substitution of a hydrogen atom at the tetrahedral position maintains the color change when the N-doping concentration is low. As the doping level increases, this trend becomes less obvious. While other N-doped structures do not show significant color change. Our results can clarify the origin of the experimental observed blue-to-red color change in lutetium hydride and also provide a further understanding of the potential N-doped lutetium dihydride.

Published
2023

6. Highly Ambient-Stable 1T-MoS2 and 1T-WS2 by Hydrothermal Synthesis under High Magnetic Fields

Author

Ding, Wei, Hu, Lin, Dai, Jianming, Tang, Xianwu, Wei, Renhuai, Sheng, Zhigao, Liang, Changhao, Shao, Dingfu, Song, Wenhai, Liu, Qiannan, Chen, Mingzhe, Zhu, Xiaoguang, Chou, Shulei, Zhu, Xuebin, Chen, Qianwang, Sun, Yuping, Dou, Shi Xue, Ding, Wei, Hu, Lin, Dai, Jianming, Tang, Xianwu, Wei, Renhuai, Sheng, Zhigao, Liang, Changhao, Shao, Dingfu, Song, Wenhai, Liu, Qiannan, Chen, Mingzhe, Zhu, Xiaoguang, Chou, Shulei, Zhu, Xuebin, Chen, Qianwang, Sun, Yuping, and Dou, Shi Xue

Abstract

The phase-controlled synthesis of metallic and ambient-stable 2D MX2 (M is Mo or W; X is S) with 1T octahedral coordination will endow these materials with superior performance compared with their semiconducting 2H coordination counterparts. We report a clean and facile route to prepare 1T-MoS2 and 1T-WS2 through hydrothermal processing under high magnetic fields. We reveal that the as-synthesized 1T-MoS2 and 1T-WS2 are ambient-stable for more than 1 year. Electrochemical measurements show that 1T-MoS2 performs much better than 2H-MoS2 as the anode for sodium ion batteries. These results can provide a clean and facile method to prepare ambient-stable 1T-phase MX2.

Published
2019

7. Highly Ambient-Stable 1T-MoS2 and 1T-WS2 by Hydrothermal Synthesis under High Magnetic Fields

Author

Ding, Wei, primary, Hu, Lin, additional, Dai, Jianming, additional, Tang, Xianwu, additional, Wei, Renhuai, additional, Sheng, Zhigao, additional, Liang, Changhao, additional, Shao, Dingfu, additional, Song, Wenhai, additional, Liu, Qiannan, additional, Chen, Mingzhe, additional, Zhu, Xiaoguang, additional, Chou, Shulei, additional, Zhu, Xuebin, additional, Chen, Qianwang, additional, Sun, Yuping, additional, and Dou, Shi Xue, additional

Published
2019
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8. Highly Ambient-Stable 1T-MoS2and 1T-WS2by Hydrothermal Synthesis under High Magnetic Fields

Author

Ding, Wei, Hu, Lin, Dai, Jianming, Tang, Xianwu, Wei, Renhuai, Sheng, Zhigao, Liang, Changhao, Shao, Dingfu, Song, Wenhai, Liu, Qiannan, Chen, Mingzhe, Zhu, Xiaoguang, Chou, Shulei, Zhu, Xuebin, Chen, Qianwang, Sun, Yuping, and Dou, Shi Xue

Abstract

The phase-controlled synthesis of metallic and ambient-stable 2D MX2(M is Mo or W; X is S) with 1T octahedral coordination will endow these materials with superior performance compared with their semiconducting 2H coordination counterparts. We report a clean and facile route to prepare 1T-MoS2and 1T-WS2through hydrothermal processing under high magnetic fields. We reveal that the as-synthesized 1T-MoS2and 1T-WS2are ambient-stable for more than 1 year. Electrochemical measurements show that 1T-MoS2performs much better than 2H-MoS2as the anode for sodium ion batteries. These results can provide a clean and facile method to prepare ambient-stable 1T-phase MX2.

Published
2019
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13. Self-assembled c-axis oriented antiperovskite soft-magnetic CuNCo3 thin films by chemical solution deposition.

Author

Hui, Zhenzhen, Tang, Xianwu, Shao, Dingfu, Wei, Renhuai, Yang, Jie, Tong, Peng, Song, Wenhai, Zhu, Xuebin, and Sun, Yuping

Abstract

Preparation of antiperovskite thin films is challenging work due to their complex phase diagram and easy decomposition during processing, which hinder the fundamental studies and applications. Herein, we report the preparation of antiperovskite CuNCo3 (CNC) thin films on several different single crystal substrates by chemical solution deposition. The results show that the derived CNC thin films are c-axis oriented regardless of the substrate orientation, suggesting the self-assembled c-axis orientation. The microstructures as well as the physical properties are investigated, showing that the CNC thin films are metallic and can be considered as a new type of soft-magnet with a ferromagnetic Curie temperature higher than 650 K. The results will provide an effective route for fabricating antiperovskite cobalt-based thin films as well as provide a prototype for the investigation of the growth mechanisms of complex metal nitride thin films by solution methods. [ABSTRACT FROM AUTHOR]

Published
2015
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14. Jc enhancement and flux pinning in Y1− x Gd x BCO and (Gd,Eu) codoped Y0.9− y Eu y Gd0.1BCO thin films by TFA-MOD.

Author

Jian, Hongbin, Shao, Dingfu, Yang, Zhaorong, Zhu, Xuebin, and Sun, Yuping

Subjects
*EUROPIUM compounds, *FLUX pinning, *YTTRIUM barium copper oxide, *METALLIC thin films, *GADOLINIUM, *DOPING agents (Chemistry), *TRIFLUOROACETIC acid
Abstract

Highlights: [•] Eu and Gd codoped Y0.9−yEu y Gd0.1BCO thin films were prepared by TFA-MOD. [•] Critical current density was obviously improved by codoping. [•] Flux pinning type was not changed with doping and codoping. [Copyright &y& Elsevier]

Published
2013
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15. Synthesis and characterization of antiperovskite nitrides GaNCr3−x Mn x .

Author

Lin, Shuai, Tong, Peng, Wang, Bosen, Huang, Yanan, Shao, Dingfu, Lu, Wenjian, and Sun, Yu Ping

Subjects
*PEROVSKITE, *NITRIDES, *GALLIUM nitride, *DOPING agents (Chemistry), *CRYSTAL structure, *MAGNETIC properties of metals, *ELECTRIC properties of metals, *TRANSPORT properties of metal, *FERRIMAGNETISM
Abstract

Abstract: The effects of Mn-doping on the crystal structure, magnetic and electrical/thermal transport properties of GaNCr3−x Mn x (0≤x≤1.5) have been investigated systematically. As a result, the lattice constant and the residual resistivity increase, while the residual resistivity ratio, electron thermal conductivity, and room-temperature carrier concentration decrease with increasing Mn-doping level. The ground state of parent compound GaNCr3 is nonmagnetic, interestingly, the ferrimagnetism and antiferromagnetism are observed in Mn-doped samples GaNCr3−x Mn x . Correspondingly, around the antiferromagnetic transition of GaNCr3−x Mn x the correlation effect is studied. Furthermore, the analysis of thermal conductivity data suggests that the electron thermal conductivity plays a major role in total thermal conductivity of GaNCr3 at low temperatures, while the phonon thermal conductivity is dominant for Mn-doped GaNCr3 in the whole temperature of 5–330K. The positive values of Seebeck coefficient and Hall coefficient indicate that the nature of charge carrier is hole-type in GaNCr3−x Mn x . [Copyright &y& Elsevier]

Published
2014
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16. Highly Ambient-Stable 1T-MoS 2 and 1T-WS 2 by Hydrothermal Synthesis under High Magnetic Fields.

Author

Ding W, Hu L, Dai J, Tang X, Wei R, Sheng Z, Liang C, Shao D, Song W, Liu Q, Chen M, Zhu X, Chou S, Zhu X, Chen Q, Sun Y, and Dou SX

Abstract

The phase-controlled synthesis of metallic and ambient-stable 2D MX 2 (M is Mo or W; X is S) with 1T octahedral coordination will endow these materials with superior performance compared with their semiconducting 2H coordination counterparts. We report a clean and facile route to prepare 1T-MoS 2 and 1T-WS 2 through hydrothermal processing under high magnetic fields. We reveal that the as-synthesized 1T-MoS 2 and 1T-WS 2 are ambient-stable for more than 1 year. Electrochemical measurements show that 1T-MoS 2 performs much better than 2H-MoS 2 as the anode for sodium ion batteries. These results can provide a clean and facile method to prepare ambient-stable 1T-phase MX 2 .

Published
2019
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