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444 results on '"Zhou, Jingsong"'

1. Evolution of the electronic structure of ultrathin MnBi2Te4 Films

Author

Xu, Runzhe, Bai, Yunhe, Zhou, Jingsong, Li, Jiaheng, Gu, Xu, Qin, Na, Yin, Zhongxu, Du, Xian, Zhang, Qinqin, Zhao, Wenxuan, Li, Yidian, Wu, Yang, Ding, Cui, Wang, Lili, Liang, Aiji, Liu, Zhongkai, Xu, Yong, Feng, Xiao, He, Ke, Chen, Yulin, and Yang, Lexian

Subjects
Condensed Matter - Materials Science
Abstract

Ultrathin films of intrinsic magnetic topological insulator MnBi2Te4 exhibit fascinating quantum properties such as quantum anomalous Hall effect and axion insulator state. In this work, we systematically investigate the evolution of the electronic structure of MnBi2Te4 thin films. With increasing film thickness, the electronic structure changes from an insulator-type with a large energy gap to one with in-gap topological surface states, which is, however, still drastically different from the bulk material. By surface doping of alkali-metal atoms, a Rashba split band gradually emerges and hybridizes with topological surface states, which not only reconciles the puzzling difference between the electronic structures of the bulk and thin film MnBi2Te4 but also provides an interesting platform to establish Rashba ferromagnet that is attractive for (quantum) anomalous Hall effect. Our results provide important insights into the understanding and engineering of the intriguing quantum properties of MnBi2Te4 thin films., Comment: Online published in Nano Letters

Published
2022
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2. Persistent exchange splitting in a chiral helimagnet Cr1/3NbS2

Author

Qin, Na, Chen, Cheng, Du, Shiqiao, Du, Xian, Zhang, Xin, Yin, Zhongxu, Zhou, Jingsong, Xu, Runzhe, Gu, Xu, Zhang, Qinqin, Zhao, Wenxuan, Li, Yidian, Mo, Sung-Kwan, Liu, Zhongkai, Zhang, Shilei, Guo, Yanfeng, Tang, P. Z., Chen, Yulin, and Yang, Lexian

Subjects
Condensed Matter - Materials Science
Abstract

Using high-resolution angle-resolved photoemission spectroscopy (ARPES) and ab-initio calculation, we systematically investigate the electronic structure of the chiral helimagnet Cr1/3NbS2 and its temperature evolution. The comparison with NbS2 suggests that the electronic structure of Cr1/3NbS2 is strongly modified by the intercalation of Cr atoms. Our ab-initio calculation, consistent with experimental result, suggests strong hybridization between Nb- and Cr-derived states near the Fermi level. In the chiral helimagnetic state (below the Curie temperature Tc), we observe exchange splitting of the energy bands crossing EF, which follows the temperature evolution of the magnetic moment, suggesting an important role of the conduction electrons in the long-range magnetic ordering. Interestingly, the exchange splitting persists far above Tc with negligible temperature dependence, in drastic contrast to the itinerant ferromagnetism described by the Stoner model, indicating the existence of short-range magnetic order. Our results provide important insights into the microscopic mechanism of the chiral helimagnetic ordering in Cr1/3NbS2.

Published
2022
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4. Persistent exchange splitting in the chiral helimagnet Cr1/3NbS2

Author

Qin, Na, Chen, Cheng, Du, Shiqiao, Du, Xian, Zhang, Xin, Yin, Zhongxu, Zhou, Jingsong, Xu, Runzhe, Gu, Xu, Zhang, Qinqin, Zhao, Wenxuan, Li, Yidian, Mo, Sung-Kwan, Liu, Zhongkai, Zhang, Shilei, Guo, Yanfeng, Tang, Peizhe, Chen, Yulin, and Yang, Lexian

Subjects
Physical Sciences, Condensed Matter Physics, Chemical sciences, Engineering, Physical sciences
Abstract

Using high-resolution angle-resolved photoemission spectroscopy and ab initio calculation, we systematically investigate the electronic structure of the chiral helimagnet Cr1/3NbS2 and its temperature evolution. The comparison with NbS2 suggests that the electronic structure of Cr1/3NbS2 is strongly modified by the intercalation of Cr atoms. Our ab initio calculation, consistent with experimental results, suggests strong hybridization between Nb- and Cr-derived states near the Fermi level. In the chiral helimagnetic state (below the Curie temperature, Tc), we observe exchange splitting of the energy bands crossing the Fermi level, which follows the temperature evolution of the magnetic moment, suggesting a strong interaction between the conduction electrons and Cr spin moments. Interestingly, the exchange splitting persists far above Tc with weak temperature dependence, in drastic contrast to the itinerant ferromagnetism described by the Stoner model, indicating the existence of short-range magnetic order. Our results provide important insights into the interplay between the electronic structure and magnetism in Cr1/3NbS2, which is helpful for understanding the microscopic mechanism of chiral helimagnetic ordering.

Published
2022

8. Electronic Origin for the Enhanced Thermoelectric Efficiency of Cu2Se

Author

Sun, Shucui, Li, Yiwei, Chen, Yujie, Xu, Xiang, Kang, Lu, Zhou, Jingsong, Xia, Wei, Liu, Shuai, Wang, Meixiao, Jiang, Juan, Liang, Aiji, Pei, Ding, Zhao, Kunpeng, Qiu, Pengfei, Shi, Xun, Chen, Lidong, Guo, Yanfeng, Wang, Zhengguo, Zhang, Yan, Liu, Zhongkai, Yang, Lexian, and Chen, Yulin

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Thermoelectric materials (TMs) can uniquely convert waste heat into electricity, which provides a potential solution for the global energy crisis that is increasingly severe. Bulk Cu2Se, with ionic conductivity of Cu ions, exhibits a significant enhancement of its thermoelectric figure of merit zT by a factor of ~3 near its structural transition around 400 K. Here, we show a systematic study of the electronic structure of Cu2Se and its temperature evolution using high-resolution angle-resolved photoemission spectroscopy. Upon heating across the structural transition, the electronic states near the corner of the Brillouin zone gradually disappear, while the bands near the centre of Brillouin zone shift abruptly towards high binding energies and develop an energy gap. Interestingly, the observed band reconstruction well reproduces the temperature evolution of the Seebeck coefficient of Cu2Se, providing an electronic origin for the drastic enhancement of the thermoelectric performance near 400 K. The current results not only bridge among structural phase transition, electronic structures, and thermoelectric properties in a condensed matter system, but also provide valuable insights into the search and design of new generation of thermoelectric materials., Comment: To appear in Science Bulletin

Published
2020
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13. Discrete Element Study on Mechanical Properties of MICP-Treated Sand under Triaxial Compression.

Author

Xie, Liquan, Zhou, Jingsong, Shen, Li, Ji, Yifan, Li, Wenlin, and Cheng, Yaofei

Subjects
DISCRETE element method, CALCIUM carbonate, SHEAR strength, MARINE engineering, SAND
Abstract

Microbial-induced calcium carbonate precipitation (MICP) has attracted much attention as a promising technology for soil improvement in the infrastructures of marine engineering. This paper introduces a novel numerical sample preparation technique for MICP-treated sand, with particular attention paid to the distribution patterns of calcium carbonate, including contact cementing, bridging, and grain coating. The effect of calcium carbonate content (CCC) on the deformation and failure mechanism is studied at macroscopic and granular scales. The findings show that a small amount of calcium carbonate can quickly increase the strength of sand. The strength improvement and deformation control of MICP technology are better than those of traditional compaction treatment. As the calcium carbonate content increases, the mechanical coordination number of the sand also increases, indicating a more stable microstructure of the sand phase. In the contact bonding mode, initial failure occurs as shear failure between sand and calcium carbonate. In the bridge mode, initial failure manifests as shear failure between calcium carbonate particles. In the coating mode, initial failure occurs as tensile failure between sand and calcium carbonate. Calcium carbonate contributes to a reduction in both sliding and rolling movements among sand particles. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Mitochondrial Ca2+ uptake in skeletal muscle health and disease

Author

Zhou, Jingsong, Dhakal, Kamal, and Yi, Jianxun

Subjects
Quantitative Biology - Biomolecules, Physics - Biological Physics, Quantitative Biology - Subcellular Processes
Abstract

Muscle uses Ca2+ as a messenger to control contraction and relies on ATP to maintain the intracellular Ca2+ homeostasis. Mitochondria are the major sub-cellular organelle of ATP production. With a negative inner membrane potential, mitochondria take up Ca2+ from their surroundings, a process called mitochondrial Ca2+ uptake. Under physiological conditions, Ca2+ uptake into mitochondria promotes ATP production. Excessive uptake causes mitochondrial Ca2+ overload, which activates downstream adverse responses leading to cell dysfunction. Moreover, mitochondrial Ca2+ uptake could shape spatio-temporal patterns of intracellular Ca2+ signaling. Malfunction of mitochondrial Ca2+ uptake is implicated in muscle degeneration. Unlike non-excitable cells, mitochondria in muscle cells experience dramatic changes of intracellular Ca2+ levels. Besides the sudden elevation of Ca2+ level induced by action potentials, Ca2+ transients in muscle cells can be as short as a few milliseconds during a single twitch or as long as minutes during tetanic contraction, which raises the question whether mitochondrial Ca2+ uptake is fast and big enough to shape intracellular Ca2+ signaling during excitation-contraction coupling and creates technical challenges for quantification of the dynamic changes of Ca2+ inside mitochondria. This review focuses on characterization of mitochondrial Ca2+ uptake in skeletal muscle and its role in muscle physiology and diseases.

Published
2016
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22. Respiratory SARS-CoV-2 Infection Causes Skeletal Muscle Atrophy and Long-Lasting Energy Metabolism Suppression.

Author

Homma, Sachiko T., Wang, Xingyu, Frere, Justin J., Gower, Adam C., Zhou, Jingsong, Lim, Jean K., tenOever, Benjamin R., and Zhou, Lan

Subjects
INTERFERON gamma, TUMOR necrosis factors, TYPE I interferons, POST-acute COVID-19 syndrome, MUSCULAR atrophy
Abstract

Muscle fatigue represents the most prevalent symptom of long-term COVID, with elusive pathogenic mechanisms. We performed a longitudinal study to characterize histopathological and transcriptional changes in skeletal muscle in a hamster model of respiratory SARS-CoV-2 infection and compared them with influenza A virus (IAV) and mock infections. Histopathological and bulk RNA sequencing analyses of leg muscles derived from infected animals at days 3, 30, and 60 post-infection showed no direct viral invasion but myofiber atrophy in the SARS-CoV-2 group, which was accompanied by persistent downregulation of the genes related to myofibers, ribosomal proteins, fatty acid β-oxidation, tricarboxylic acid cycle, and mitochondrial oxidative phosphorylation complexes. While both SARS-CoV-2 and IAV infections induced acute and transient type I and II interferon responses in muscle, only the SARS-CoV-2 infection upregulated TNF-α/NF-κB but not IL-6 signaling in muscle. Treatment of C2C12 myotubes, a skeletal muscle cell line, with combined IFN-γ and TNF-α but not with IFN-γ or TNF-α alone markedly impaired mitochondrial function. We conclude that a respiratory SARS-CoV-2 infection can cause myofiber atrophy and persistent energy metabolism suppression without direct viral invasion. The effects may be induced by the combined systemic interferon and TNF-α responses at the acute phase and may contribute to post-COVID-19 persistent muscle fatigue. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Sustained elevation of MG53 in the bloodstream increases tissue regenerative capacity without compromising metabolic function

Author

Bian, Zehua, Wang, Qiang, Zhou, Xinyu, Tan, Tao, Park, Ki Ho, Kramer, H. Fritz, McDougal, Alan, Laping, Nicholas J., Kumar, Sanjay, Adesanya, T. M. Ayodele, Sermersheim, Matthew, Yi, Frank, Wang, Xinxin, Wu, Junwei, Gumpper, Kristyn, Jiang, Qiwei, He, Duofen, Lin, Pei-Hui, Li, Haichang, Guan, Fangxia, Zhou, Jingsong, Kohr, Mark J., Zeng, Chunyu, Zhu, Hua, and Ma, Jianjie

Published
2019
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48. MG53 preserves mitochondrial integrity of cardiomyocytes during ischemia reperfusion-induced oxidative stress

Author

Gumpper-Fedus, Kristyn, primary, Park, Ki Ho, additional, Ma, Hanley, additional, Zhou, Xinyu, additional, Bian, Zehua, additional, Krishnamurthy, Karthikeyan, additional, Sermersheim, Matthew, additional, Zhou, Jingsong, additional, Tan, Tao, additional, Li, Lei, additional, Liu, Jianxun, additional, Lin, Pei-Hui, additional, Zhu, Hua, additional, and Ma, Jianjie, additional

Published
2022
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49. Evolution of the Electronic Structure of Ultrathin MnBi2Te4 Films

Author

Xu, Runzhe, primary, Bai, Yunhe, additional, Zhou, Jingsong, additional, Li, Jiaheng, additional, Gu, Xu, additional, Qin, Na, additional, Yin, Zhongxu, additional, Du, Xian, additional, Zhang, Qinqin, additional, Zhao, Wenxuan, additional, Li, Yidian, additional, Wu, Yang, additional, Ding, Cui, additional, Wang, Lili, additional, Liang, Aiji, additional, Liu, Zhongkai, additional, Xu, Yong, additional, Feng, Xiao, additional, He, Ke, additional, Chen, Yulin, additional, and Yang, Lexian, additional

Published
2022
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