Your search keyword '"Guo, Hui-Xin"' showing total 3 results

1. Absence of superconductivity in Nd0.8Sr0.2NiOx thin films without chemical reduction.

Author

Zhou, Xiao-Rong, Feng, Ze-Xin, Qin, Pei-Xin, Yan, Han, Hu, Shuai, Guo, Hui-Xin, Wang, Xiao-Ning, Wu, Hao-Jiang, Zhang, Xin, Chen, Hong-Yu, Qiu, Xue-Peng, and Liu, Zhi-Qi

Abstract

The recently reported 9–15 K superconductivity in Nd0.8Sr0.2NiO2/SrTiO3 heterostructures that were fabricated by a soft-chemical topotactic reduction approach based on precursor Nd0.8Sr0.2NiO3 thin films deposited on SrTiO3 substrates, has excited an immediate surge of research interest. To explore an alternative physical path instead of chemical reduction to realizing superconductivity in this compound, using pulsed laser deposition, we systematically fabricated 63 Nd0.8Sr0.2NiOx (NSNO) thin films at a wide range of oxygen partial pressures on various oxide substrates. Transport measurements did not find any signature of superconductivity in all the 63 thin-film samples. With the oxygen content reducing in the NSNO films by lowering the deposition oxygen pressure, the NSNO films are getting more resistive and finally become insulating. Furthermore, we tried to cap a 20-nm-thick amorphous LaAlO3 layer on a Nd0.8Sr0.2NiO3 thin film deposited at a high oxygen pressure of 20 Pa to create oxygen vacancies on its surface and did not succeed in obtaining higher conductivity either. Our experimental results together with the recent report on the absence of superconductivity in synthesized bulk Nd0.8Sr0.2NiO2 crystals suggest that the chemical reduction approach could be unique for yielding superconductivity in NSNO/SrTiO3 heterostructures. However, SrTiO3 substrates could be reduced to generate oxygen vacancies during the chemical reduction process as well, which may thus partially contribute to conductivity. [ABSTRACT FROM AUTHOR]

Published

2020

2. Potential Genes Related to Levofloxacin Resistance in Mycobacterium tuberculosis Based on Transcriptome and Methylome Overlap Analysis.

Author

Li, Hai-cheng, Guo, Hui-xin, Chen, Tao, Wang, Wei, Wu, Zhu-hua, Chen, Liang, Wu, Hui-zhong, Xu, Gao-po, Chen, Xun-xun, and Zhou, Lin

Subjects

*MYCOBACTERIUM tuberculosis, *MULTIDRUG-resistant tuberculosis, *GENES, *TUBERCULOSIS, *CONTROL groups

Abstract

Drug-resistant Mycobacterium tuberculosis (M. tuberculosis) has become an increasingly serious public health problem and has complicated tuberculosis (TB) treatment. Levofloxacin (LOF) is an ideal anti-tuberculosis drug in clinical applications. However, the detailed molecular mechanisms of LOF-resistant M. tuberculosis in TB treatment have not been revealed. Our study performed transcriptome and methylome sequencing to investigate the potential biological characteristics of LOF resistance in M. tuberculosis H37Rv. In the transcriptome analysis, 953 differentially expressed genes (DEGs) were identified; 514 and 439 DEGs were significantly downregulated and upregulated in the LOF-resistant group and control group, respectively. The KEGG pathway analysis revealed that 97 pathways were enriched in this study. In the methylome analysis, 239 differentially methylated genes (DMGs) were identified; 150 and 89 DMGs were hypomethylated and hypermethylated in the LOF-resistant group and control group, respectively. The KEGG pathway analysis revealed that 74 pathways were enriched in this study. The overlap study suggested that 25 genes were obtained. It was notable that nine genes expressed downregulated mRNA and upregulated methylated levels, including pgi, fadE4, php, cyp132, pckA, rpmB1, pfkB, acg, and ctpF, especially cyp132, pckA, and pfkB, which were vital in LOF-resistant M. tuberculosis H37Rv. The overlapping genes between transcriptome and methylome could be essential for studying the molecular mechanisms of LOF-resistant M. tuberculosis H37Rv. These results may provide informative evidence for TB treatment with LOF. [ABSTRACT FROM AUTHOR]

Published

2020

3. Noncollinear spintronics and electric-field control: a review.

Author

Qin, Pei-Xin, Yan, Han, Wang, Xiao-Ning, Feng, Ze-Xin, Guo, Hui-Xin, Zhou, Xiao-Rong, Wu, Hao-Jiang, Zhang, Xin, Leng, Zhao-Guo-Gang, Chen, Hong-Yu, and Liu, Zhi-Qi

Abstract

Our world is composed of various materials with different structures, where spin structures have been playing a pivotal role in spintronic devices of the contemporary information technology. Apart from conventional collinear spin materials such as collinear ferromagnets and collinear antiferromagnetically coupled materials, noncollinear spintronic materials have emerged as hot spots of research attention due to exotic physical phenomena. In this review, we first introduce two types of noncollinear spin structures, i.e., the chiral spin structure that yields real-space Berry phases and the coplanar noncollinear spin structure that could generate momentum-space Berry phases, and then move to relevant novel physical phenomena including topological Hall effect, anomalous Hall effect, multiferroic, Weyl fermions, spin-polarized current and spin Hall effect without spin–orbit coupling in these noncollinear spin systems. Afterward, we summarize and elaborate the electric-field control of the noncollinear spin structure and related physical effects, which could enable ultralow power spintronic devices in future. In the final outlook part, we emphasize the importance and possible routes for experimentally detecting the intriguing theoretically predicted spin-polarized current, verifying the spin Hall effect in the absence of spin–orbit coupling and exploring the anisotropic magnetoresistance and domain-wall-related magnetoresistance effects for noncollinear antiferromagnetic materials. [ABSTRACT FROM AUTHOR]

Published

2020