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899 results on '"Chen, Xiao-Feng"'

1. Quantized perfect transmission in graphene nanoribbons with random hollow adsorbates

Author

Yu, Jia-Le, Hou, Zhe, Bhat, Irfan Hussain, Hu, Pei-Jia, Sun, Jia-Wen, Chen, Xiao-Feng, Guo, Ai-Min, and Sun, Qing-Feng

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Materials Science
Abstract

Impurities exist inevitably in two-dimensional materials as they spontaneously adsorb onto the surface during fabrication, usually exerting detrimental effects on electronic transport. Here, we focus on a special type of impurities that preferentially adsorb onto the hollow regions of graphene nanoribbons (GNRs), and study how they affect the quantum transport in GNRs. Contrary to previous knowledge that random adatoms should localize electrons, the so-called Anderson localization, noteworthy quantized conductance peaks (QCPs) are observed at specific electron energies. These QCPs are remarkably robust against variations in system size, GNR edge, and adatom properties, and they can reappear at identical energies following an arithmetic sequence of device width. Further investigation of wavefunction reveals a unique transport mode at each QCP energy which transmits through disordered GNRs reflectionlessly, while all the others become fully Anderson localized, indicating the survival of quantum ballistic transport in the localized regime. Our findings highlight the potential utility of hollow adatoms as a powerful tool to manipulate the conductivity of GNRs, and deepen the understanding of the interplay between impurities and graphene., Comment: 8 pages, 4 figures, and 1 table; comments are welcome

Published
2024

3. Transverse spin selectivity in helical nanofibers prepared without any chiral molecule

Author

Wang, Chenchen, Liang, Zeng-Ren, Chen, Xiao-Feng, Guo, Ai-Min, Ji, Guanghao, Sun, Qing-Feng, and Yan, Yong

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

In the last decade, chirality-induced spin selectivity (CISS) has been attracting extensive interest. However, there still exists a large gap between experiments and quantitative theoretical results, and the microscopic mechanism of CISS, especially transverse CISS where electrons are injected perpendicular to the helix axis of chiral molecules, remains elusive. Here, we address these issues by performing a combined experimental and theoretical study on conducting polyaniline helical nanofibers which are synthesized in the absence of any chiral species. Large spin polarization is measured in both left- and right-handed nanofibers for electrons injected perpendicular to their helix axis, which is comparable to the value of parallel electron injection in other chiral molecules, and it will be reversed by switching the handedness between two enantiomers. We develop a theoretical model with extremely weak spin-orbit coupling arising exclusively from electron propagation between neighboring polyanilines and the numerical results are quantitatively consistent with the experimental data. Our results demonstrate that the supramolecular handedness is sufficient for spin-selective electron transmission in chiral molecules assembled from achiral monomers and the mechanism of transverse CISS is revealed., Comment: 4 figures; comments are welcome

Published
2023

6. Topologically nontrivial and trivial zero modes in chiral molecules

Author

Chen, Xiao-Feng, Luo, Wenchen, Fang, Tie-Feng, Paltiel, Yossi, Millo, Oded, Guo, Ai-Min, and Sun, Qing-Feng

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Soft Condensed Matter
Abstract

Recently, electron transport along chiral molecules has been attracting extensive interest and several intriguing phenomena have been reported in recent experiments, such as the emergence of zero-bias conductance peaks upon the adsorption of single-helical protein on superconducting films. Here, we study theoretically the electron transport through a two-terminal single-helical protein sandwiched between a superconducting electrode and a normal-metal one in the presence of a perpendicular magnetic field. As the proximity-induced superconductivity attenuates with the distance from superconducting media, the pairing potential along the helix axis of the single-helical protein is expected to decrease exponentially, which is characterized by the decay exponent $\lambda$ and closely related to the experiments. Our results indicate that (i) a zero-bias conductance peak of $2e^2/h$ appears at zero temperature and the peak height (width) decreases (broadens) with increasing temperature, and (ii) this zero-bias peak can split into two peaks, which are in agreement with the experiments [see, e.g., Nano Lett. 19, 5167 (2019)]. Remarkably, Majorana zero modes are observed in this protein-superconductor setup in a wide range of model parameters, as manifested by the $Z_2$ topological invariant and the Majoroana oscillation. Interestingly, a specific region is demonstrated for decaying superconductivity, where topologically nontrivial and trivial zero modes coexist and the bandgap remains constant. With increasing the pairing potential, the topologically nontrivial zero modes will transform to the trivial ones without any bandgap closing-reopening, and the critical pairing potential of the phase transition attenuates exponentially with $\lambda$. Additionally, one of the two zero modes can be continuously shifted from one end of the protein toward the other end contacted by the normal-metal electrode., Comment: 11 pages, 6 figures

Published
2022
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9. Resonant tunneling in disordered borophene nanoribbons with line defects

Author

Hu, Pei-Jia, Wang, Si-Xian, Chen, Xiao-Feng, Liang, Zeng-Ren, Fang, Tie-Feng, Guo, Ai-Min, Xu, Hui, and Sun, Qing-Feng

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Very recently, borophene has been attracting extensive and ongoing interest as the new wonder material with structural polymorphism and superior attributes, showing that the structural imperfection of line defects (LDs) occurs widely at the interface between $\nu_{1/5}$ ($\chi_3$) and $\nu_{1/6}$ ($\beta_{12}$) boron sheets. Motivated by these experiments, here we present a theoretical study of electron transport through two-terminal disordered borophene nanoribbons (BNRs) with random distribution of LDs. Our results indicate that LDs could strongly affect the electron transport properties of BNRs. In the absence of LDs, both $\nu_{1/5}$ and $\nu_{1/6}$ BNRs exhibit metallic behavior, in agreement with experiments. While in the presence of LDs, the overall electron transport ability is dramatically decreased, but some resonant peaks of conductance quantum can be found in the transmission spectrum of any disordered BNR with arbitrary arrangement of LDs. These disordered BNRs exhibit metal-insulator transition by varying nanoribbon width with tunable transmission gap in the insulating regime. Furthermore, the bond currents present fringe patterns and two evolution phenomena of resonant peaks are revealed for disordered BNRs with different widths. These results may help for understanding structure-property relationships and designing LD-based nanodevices., Comment: Comments are welcome; 6 pages; 4 figures

Published
2022
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11. Charge transport in a multi-terminal DNA tetrahedron: Interplay among contact position, disorder, and base-pair mismatch

Author

Hu, Pei-Jia, Wang, Si-Xian, Chen, Xiao-Feng, Gao, Xiao-Hui, Fang, Tie-Feng, Guo, Ai-Min, and Sun, Qing-Feng

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Soft Condensed Matter
Abstract

As a secondary structure of DNA, DNA tetrahedra exhibit intriguing charge transport phenomena and provide a promising platform for wide applications like biosensors, as shown in recent electrochemical experiments. Here, we study charge transport in a multi-terminal DNA tetrahedron, finding that its charge transport properties strongly depend upon the interplay among contact position, on-site energy disorder, and base-pair mismatch. Our results indicate that the charge transport efficiency is nearly independent of contact position in the weak disorder regime, and is dramatically declined by the occurrence of a single base-pair mismatch between the source and the drain, in accordance with experimental results [J. Am. Chem. Soc. {\bf 134}, 13148 (2012); Chem. Sci. {\bf 9}, 979 (2018)]. By contrast, the charge transport efficiency could be enhanced monotonically by shifting the source toward the drain in the strong disorder regime, and be increased when the base-pair mismatch takes place exactly at the contact position. In particular, when the source moves successively from the top vertex to the drain, the charge transport through the tetrahedral DNA device can be separated into three regimes, ranging from disorder-induced linear decrement of charge transport to disorder-insensitive charge transport, and to disorder-enhanced charge transport. Finally, we predict that the DNA tetrahedron functions as a more efficient spin filter compared to double-stranded DNA and opposite spin polarization could be observed at different drains, which may be used to separate spin-unpolarized electrons into spin-up ones and spin-down ones. These results could be readily checked by electrochemical measurements and may help for designing novel DNA tetrahedron-based molecular nanodevices., Comment: Comments are welcome; 10 pages; 6 figures

Published
2021
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16. Spatial Multi-feature Segmentation of 3D Lidar Point Cloud

Author

YANG Wen-kun, YUAN Xiao-pei, CHEN Xiao-feng, GUO Rui

Subjects
3d point cloud, lidar, curvature segmentation, weighted euclidean distance, building, Computer software, QA76.75-76.765, Technology (General), T1-995
Abstract

Multi-layer solid-state lidar has become an important tool for environment perception of unmanned platform,and has been widely used in vehicle-mounted environment modeling.Due to the low resolution of lidar,the sensitivity of environmental noise,and the complexity of the scene,the fast and effective segmentation of the scene becomes a key problem in the real-time environment modeling.In view of the obvious curvature difference between buildings and vegetation in the actual collected point cloud data,this paper proposes an improved fast segmentation method of 3D point cloud based on multi-layer lidar.After the initial segmentation of building facade is realized based on curvature segmentation,the weighted Euclidean clustering is used for the second iterative segmentation of the initial segmented point cloud,which can reduce the iterative process and avoid falling into local optimum.Through the unmanned platform data acquisition and processing experiments and public data experiments,the effectiveness of this method in the segmentation of building and vegetation is verified.According to the final segmentation results of the scene,the over segmentation rate,under segmentation rate and correct segmentation rate of the scene are counted,and compared with the traditional region growing segmentation algorithm.The results show that the algorithm has strong applicability and segmentation accuracy in different scenes.

Published
2022
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19. Improved Multi-feature Fusion Algorithm for Target Detection Based on Haar-like and LBP

Author

YUAN Xiao-pei, CHEN Xiao-feng, LIAN Ming

Subjects
target detection, multi-feature fusion, feature extraction, haar-like features, ihl characteristics, Computer software, QA76.75-76.765, Technology (General), T1-995
Abstract

Aiming at the problems of detecting targets with Haar-like,such as excessive feature values,expensive computational cost,inability to describe the target texture features,and low recognition rate etc.,this paper proposes an adaptive threshold IHL (Improved Haar-like LBP) feature extraction algorithm based on the information of the origin of the sliding window.More speci-fically,the algorithm first constructs the IHL feature coding method fusing Haar-like features and LBP features.Then,for computing Haar-like local binary features,a Gaussian matrix is used to obtain an adaptive threshold that conforms to the pixel distribution law,and the pixel information of the central point is introduced to ensure the rationality of the extracted feature value.Finally,the cascade classifier trained by AdaBoost is built and experiments are conducted on the KITTI vehicle data set and the INRIA Person pedestrian data set.The proposed algorithm,with a recognition rate of more than 94%,is proven effective with recognizing 1 102 pedestrian targets in 65 s and 1 852 vehicle targets in 114.3 s,which can significantly speed up target recognition time and obviously improve the detection accuracy compared with state-of-the-art methods.

Published
2021
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20. Examination of the role of the rotating nursing department in the training of nursing staff based on SWOT analysis.

Author

Lv, Chen, Guo, Qian, Peng, Shuang-Shuang, Chen, Xiao-Feng, Liu, Su-Fang, and Wang, Xiu-Hua

Subjects
PERSONNEL management, CAREER development, JOB rotation, INCENTIVE (Psychology), TALENT management
Abstract

BACKGROUND: The implementation of the rotation system in the Chinese medical industry has achieved significant results. OBJECTIVES: The present study aims to 1) explore the strengths, weaknesses, opportunities and challenges of rotational nursing department implementation and 2) provide references for developing nursing staff's competencies in leadership, performance evaluation, quality of care, communication in relationships and human resources. METHODS: A total of 16 rotational nursing department staff members from a tertiary tuberculosis specialist hospital in Beijing were interviewed, and the interview data were analysed using a strengths, weaknesses, opportunities and threats analysis and class analysis. RESULTS: The advantages of the rotational nursing department included: (1) stimulating the nursing staff's enthusiasm and creativity; (2) strengthening the communication and collaboration between departments; (3) improving the detailed management of nursing quality; and (4) enhancing the nursing staff's comprehensive abilities. The disadvantages included: (1) the design of the rotation programme focusing on practice; (2) a lack of personalisation; and (3) imperfect performance assessment of the rotating staff. Opportunities included: (1) deepening the connotation of nursing job management and (2) developing the construction of nursing discipline and the need for personal career development and value realisation. Threats included the lack of a sound rotation management model to draw on. CONCLUSION: A rotational nursing department is conducive to enhancing the competence of nursing staff in management positions and providing new ideas for hospitals to select and train nursing management talents. By taking full advantage of the benefits of vertical nursing management, designing personalised rotation training programmes, building a diversified learning and training platform and developing a positive performance incentive mechanism is recommended to fully engage the role of rotation in nursing management talent training. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Screening of the Marine Red Yeast Strains Producing Carotenoids and Optimization of the Process Conditions.

Author

HUANG Ji-hao, WANG Xin-rui, YANG Rong, CHEN Yi-ming, ZHANG Yan-ge, WANG Lu, CHEN Xiao-feng, and YAO Guang-shan

Abstract

In order to obtain the marine red yeast strains with high yield of carotenoids, 228 strains of marine red yeast were obtained from various marine environmental samples in the sea areas of Fujian Province. Through the screening and identification of the carotenoid-producing marine red yeast, the target strain Y37 was obtained, and the fermentation medium conditions were further optimized by single factor test and verified by shake flask. The results showed that: the strain Y37 was identified as the subspecies of Rhodotorula mucilaginosa. The best carbon source for the fermentation and production of carotenoid was mannitol, the best nitrogen source was fish meal, and the best salt concentration in the culture medium was 3%. Under the optimal fermentation conditions, the yield of carotenoid reached 128 ug⋅L-1 in the shake-flask fermentation of strain Y37. Therefore, the microbial strains repository of marine yeast with the high-yielding carotenoid potential was isolated and obtained from various marine habitats in this study, which provided a new way for the large-scale preparation of carotenoids. [ABSTRACT FROM AUTHOR]

Published
2024
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40. Clinical evaluation of a multitarget fecal immunochemical test‐sDNA test for colorectal cancer screening in a high‐risk population: a prospective, multicenter clinical study

Author

Hu, Ye‐Ting, primary, Chen, Xiao‐Feng, additional, Zhai, Chun‐Bao, additional, Yu, Xiao‐Tian, additional, Liu, Gang, additional, Xiong, Zhi‐Guo, additional, Wang, Zi‐Qiang, additional, Cai, San‐Jun, additional, Li, Wen‐Cai, additional, Kong, Xiang‐Xing, additional, Xiao, Qian, additional, Wang, Cai‐Hua, additional, Tao, Zhi‐Hua, additional, Niu, Li‐Yun, additional, Men, Jian‐Long, additional, Wang, Qing, additional, Wei, Shao‐Zhong, additional, Hu, Jun‐Jie, additional, Yang, Ting‐Han, additional, Peng, Jun‐Jie, additional, Jiang, Guo‐Zhong, additional, Lv, Ning, additional, Chen, Yi‐You, additional, Zheng, Shu, additional, Gu, Yan‐Hong, additional, and Ding, Ke‐Feng, additional

Published
2023
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42. Sirtuin 2 deficiency aggravates ageing-induced vascular remodelling in humans and mice

Author

Zhang, Yang, primary, Wang, Xiaoman, additional, Li, Xun-Kai, additional, Lv, Shuang-Jie, additional, Wang, He-Ping, additional, Liu, Yang, additional, Zhou, Jingyue, additional, Gong, Hui, additional, Chen, Xiao-Feng, additional, Ren, Si-Chong, additional, Zhang, Huina, additional, Dai, Yuxiang, additional, Cai, Hua, additional, Yan, Bo, additional, Chen, Hou-Zao, additional, and Tang, Xiaoqiang, additional

Published
2023
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44. Association of genetic and immuno-characteristics with clinical outcomes in patients with RET-rearranged non-small cell lung cancer: a retrospective multicenter study

Author

Lu, Chang, Dong, Xiao-Rong, Zhao, Jun, Zhang, Xu-Chao, Chen, Hua-Jun, Zhou, Qing, Tu, Hai-Yan, Ai, Xing-Hao, Chen, Xiao-Feng, An, Gai-Li, Bai, Jun, Shan, Jin-Lu, Wang, Yi-Na, Yang, Shuan-Ying, Liu, Xiang, Zhuang, Wu, Wu, Hui-Ta, Zhu, Bo, Xia, Xue-Feng, Chen, Rong-Rong, Gu, De-Jian, Xu, Hua-Min, Wu, Yi-Long, and Yang, Jin-Ji

Published
2020
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48. Research Progress on Carbon Nanotubes Reinforced Cu-matrix Composites

Author

TAO Jing-mei, HONG Peng, CHEN Xiao-feng, and YI Jian-hong

Subjects
CNTs, copper matrix composite, preparation, interface, property, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

The critical issues of CNTs/Cu composites were reviewed. The preparation techniques of the composites were classified, and the research progress on powder metallurgic methods, electrochemical methods and other methods was summarized, with an emphasis on the relationship between preparation methods and properties. The interfacial characteristic of the CNTs/Cu composites was analyzed, and the research progress and existing problems of mechanical properties, electrical properties, thermal properties and wear and friction properties of the composites were also summarized. It was pointed out that the key to increase the comprehensive properties of the composites is to obtain the homogeneous distribution of CNTs and good interfacial bonding between CNTs and the Cu matrix by improving the preparation methods.

Published
2017
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