Your search keyword '"Zhao, Yingcheng"' showing total 28 results

1. Interfacial Charge-transfer Excitonic Insulator in a Two-dimensional Organic-inorganic Superlattice

Author

Liu, Yang, Zhu, Hongen, Lv, Haifeng, Guo, Yuqiao, Zhao, Yingcheng, Lin, Yue, Tai, Xiaolin, Zhao, Jiyin, Yuan, Bingkai, Liu, Yi, Zhang, Guobin, Sun, Zhe, Wu, Xiaojun, Xie, Yi, and Wu, Changzheng

Subjects

Condensed Matter - Materials Science

Abstract

Excitonic insulators are long-sought-after quantum materials predicted to spontaneously open a gap by the Bose condensation of bound electron-hole pairs, namely, excitons, in their ground state. Since the theoretical conjecture, extensive efforts have been devoted to pursuing excitonic insulator platforms for exploring macroscopic quantum phenomena in real materials. Reliable evidences of excitonic character have been obtained in layered chalcogenides as promising candidates. However, owing to the interference of intrinsic lattice instabilities, it is still debatable whether those features, such as charge density wave and gap opening, are primarily driven by the excitonic effect or by the lattice transition. Herein, we develop a novel charge-transfer excitonic insulator in organic-inorganic superlattice interfaces, which serves as an ideal platform to decouple the excitonic effect from the lattice effect. In this system, we observe the narrow gap opening and the formation of a charge density wave without periodic lattice distortion, providing visualized evidence of exciton condensation occurring in thermal equilibrium. Our findings identify spontaneous interfacial charge transfer as a new strategy for developing novel excitonic insulators and investigating their correlated many-body physics.

Published

2022

2. Multi-target reconstruction based on subspace decision optimization for bioluminescence tomography

Author

Wei, Xiao, Guo, Hongbo, Yu, Jingjing, Liu, Yanqiu, Zhao, Yingcheng, and He, Xiaowei

Published

2023

3. Intercalation-assisted Exfoliation Strategy for Two-dimensional Materials Preparation

Author

Zhao, Yingcheng, Su, Yueqi, Guo, Yuqiao, and Wu, Changzheng

Published

2020

4. Interfacial Charge-Transfer Excitonic Insulator in a Two-Dimensional Organic–Inorganic Superlattice

Author

Liu, Yang, Lv, Haifeng, Guo, Yuqiao, Zhu, Hongen, Shang, Zhengmin, Zhao, Yingcheng, Lin, Yue, Tai, Xiaolin, Guo, Ziyang, Cui, Xuefeng, Zhao, Jiyin, Yuan, Bingkai, Liu, Yi, Zhang, Guobin, Sun, Zhe, Wu, Xiaojun, Xie, Yi, and Wu, Changzheng

Abstract

Excitonic insulators are long-sought-after quantum materials predicted to spontaneously open a gap by the Bose condensation of bound electron–hole pairs, namely, excitons, in their ground state. Since the theoretical conjecture, extensive efforts have been devoted to pursuing excitonic insulator platforms for exploring macroscopic quantum phenomena in real materials. Reliable evidence of excitonic character has been obtained in layered chalcogenides as promising candidates. However, owing to the interference of intrinsic lattice instabilities, it is still debatable whether those features, such as the charge density wave and gap opening, are primarily driven by the excitonic effect or by the lattice transition. Herein, we develop an intercalation chemistry strategy for obtaining a novel charge-transfer excitonic insulator in organic–inorganic superlattice interfaces that serves as an ideal platform to decouple the excitonic effect from the lattice effect. In this system, we observe a narrow excitonic gap, formation of a charge density wave without periodic lattice distortion, and metal–insulator transition, providing visualized evidence of exciton condensation occurring in thermal equilibrium. Our findings identify self-assembly intercalation chemistry as a new strategy for developing novel excitonic insulators.

Published

2024

5. Chemical exchange saturation transfer (CEST) magnetic resonance imaging (MRI) quantification of transient ischemia using a combination method of 5-pool Lorentzian fitting and inverse Z-spectrum analysis

Author

Zhang, Lihong, primary, Xu, Chongxin, additional, Li, Zhen, additional, Sun, Junding, additional, Wang, Xiaoli, additional, Hou, Beibei, additional, and Zhao, Yingcheng, additional

Published

2023

6. Application of a Markov chain Monte Carlo method for robust quantification in chemical exchange saturation transfer magnetic resonance imaging

Author

Zhao, Yingcheng, primary, Wang, Xiaoli, additional, Wang, Yifei, additional, Wang, Beilei, additional, Zhang, Lihong, additional, Wei, Xiao, additional, and He, Xiaowei, additional

Published

2022

7. Reconstruction of Rainfall Field Using Earth–Space Links Network: A Compressed Sensing Approach

Author

Zhao, Yingcheng, primary, Liu, Xichuan, additional, Liu, Lei, additional, Pu, Kang, additional, and Song, Kun, additional

Published

2022

8. Frequency importance analysis for chemical exchange saturation transfer magnetic resonance imaging using permuted random forest.

Author

Chen, Yibing, Dang, Xujian, Zhao, Benqi, Chen, Zhensen, Zhao, Yingcheng, Zhao, Fengjun, Zheng, Zhuozhao, He, Xiaowei, Peng, Jinye, and Song, Xiaolei

Subjects

MAGNETIZATION transfer, MAGNETIC resonance imaging, RANDOM forest algorithms, ANALYTICAL chemistry, BRAIN tumors, SIGNAL sampling

Abstract

Chemical exchange saturation transfer magnetic resonance imaging (CEST MRI) is a promising molecular imaging tool that allows sensitive detection of endogenous metabolic changes. However, because the CEST spectrum does not display a clear peak like MR spectroscopy, its signal interpretation is challenging, especially under 3‐T field strength or with a large saturation B1. Herein, as an alternative to conventional Z‐spectral fitting approaches, a permuted random forest (PRF) method is developed to determine featured saturation frequencies for lesion identification, so‐called CEST frequency importance analysis. Briefly, voxels in the CEST dataset were labeled as lesion and control according to multicontrast MR images. Then, by considering each voxel's saturation signal series as a sample, a permutation importance algorithm was employed to rank the contribution of saturation frequency offsets in the differentiation of lesion and normal tissue. Simulations demonstrated that PRF could correctly determine the frequency offsets (3.5 or −3.5 ppm) for classifying two groups of Z‐spectra, under a range of B0, B1 conditions and sample sizes. For ischemic rat brains, PRF only displayed high feature importance around amide frequency at 2 h postischemia, reflecting that the pH changes occurred at an early stage. By contrast, the data acquired at 24 h postischemia exhibited high feature importance at multiple frequencies (amide, water, and lipids), which suggested the complex tissue changes that occur during the later stages. Finally, PRF was assessed using 3‐T CEST data from four brain tumor patients. By defining the tumor region on amide proton transfer‐weighted images, PRF analysis identified different CEST frequency importance for two types of tumors (glioblastoma and metastatic tumor) (p < 0.05, with each image slice as a subject). In conclusion, the PRF method was able to rank and interpret the contribution of all acquired saturation offsets to lesion identification; this may facilitate CEST analysis in clinical applications, and open up new doors for comprehensive CEST analysis tools other than model‐based approaches. [ABSTRACT FROM AUTHOR]

Published

2023

9. Ultralow In-Plane Thermal Conductivity in 2D Magnetic Mosaic Superlattices for Enhanced Thermoelectric Performance

Author

Zhao, Yingcheng, primary, Li, Zejun, additional, Su, Yueqi, additional, Wu, Changzheng, additional, and Xie, Yi, additional

Published

2022

10. Research on the Method of Rainfall Field Retrieval Based on the Combination of Earth–Space Links and Horizontal Microwave Links

Author

Zhao, Yingcheng, primary, Liu, Xichuan, additional, Pu, Kang, additional, Ye, Jin, additional, and Xian, Minghao, additional

Published

2022

11. Frequency importance analysis for chemical exchange saturation transfer magnetic resonance imaging using permuted random forest

Author

Chen, Yibing, primary, Dang, Xujian, additional, Zhao, Benqi, additional, Chen, Zhensen, additional, Zhao, Yingcheng, additional, Zhao, Fengjun, additional, Zheng, Zhuozhao, additional, He, Xiaowei, additional, Peng, Jinye, additional, and Song, Xiaolei, additional

Published

2022

12. A fully convolutional network (FCN) based automated ischemic stroke segment method using chemical exchange saturation transfer imaging

Author

Zhao, Yingcheng, primary, Chen, Yibing, additional, Chen, Yanrong, additional, Zhang, Lihong, additional, Wang, Xiaoli, additional, and He, Xiaowei, additional

Published

2022

13. Complex petroleum migration and accumulation in central region of southern Junggar basin, Northwest China

Author

Cao, Jian / 曹剑, Wang, Xulong / 王绪龙, Wei, Dongtao / 魏东涛, Sun, Ping’an / 孙平安, Hu, Wenxuan / 胡文瑄, Jia, Dong / 贾东, and Zhao, Yingcheng / 赵应成

Published

2010

14. Quantum Griffiths Singularity in a Layered Superconducting Organic–Inorganic Hybrid Superlattice

Author

Zhao, Yingcheng, primary, Su, Yueqi, additional, Guo, Yuqiao, additional, Peng, Jing, additional, Zhao, Jiyin, additional, Wang, Chenyang, additional, Wang, Linjun, additional, Wu, Changzheng, additional, and Xie, Yi, additional

Published

2021

15. Statistical Study of Rainfall Inversion Using the Earth-Space Link at the Ku Band: Optimization and Validation for 1 Year of Data

Author

Zhao, Yingcheng, primary, Liu, Xichuan, additional, Xian, Minghao, additional, and Gao, Taichang, additional

Published

2021

16. Enhanced CEST MRI Using the Residual of Inversed Z-Spectra for Ischemia Detection

Author

Zhang, Lihong, primary, Liang, Yuhua, additional, Chen, Yanrong, additional, Li, Guangzu, additional, Zhang, Mengbei, additional, Zhao, Yingcheng, additional, Wang, Xiaoli, additional, and Song, Xiaolei, additional

Published

2020

17. Motion correction of chemical exchange saturation transfer MRI series using robust principal component analysis (RPCA) and PCA

Author

Bie, Chongxue, primary, Liang, Yuhua, additional, Zhang, Lihong, additional, Zhao, Yingcheng, additional, Chen, Yanrong, additional, Zhang, Xueru, additional, He, Xiaowei, additional, and Song, Xiaolei, additional

Published

2019

18. Voxel-wise Optimization of Pseudo Voigt Profile (VOPVP) for Z-spectra fitting in chemical exchange saturation transfer (CEST) MRI

Author

Zhang, Lihong, primary, Zhao, Yingcheng, additional, Chen, Yanrong, additional, Bie, Chongxue, additional, Liang, Yuhua, additional, He, Xiaowei, additional, and Song, Xiaolei, additional

Published

2019

19. Solution Processing for Lateral Transition-Metal Dichalcogenides Homojunction from Polymorphic Crystal

Author

Wu, Jiajing, primary, Peng, Jing, additional, Zhou, Yuan, additional, Lin, Yue, additional, Wen, Xiaolei, additional, Wu, Junchi, additional, Zhao, Yingcheng, additional, Guo, Yuqiao, additional, Wu, Changzheng, additional, and Xie, Yi, additional

Published

2018

20. Surface chemical-modification of inorganic solids for engineering the phase transitions and smart applications

Author

Li, Zejun, primary, Zhao, Yingcheng, additional, and Wu, Changzheng, additional

Published

2018

21. Molecule-Confined Engineering toward Superconductivity and Ferromagnetism in Two-Dimensional Superlattice

Author

Li, Zejun, primary, Zhao, Yingcheng, additional, Mu, Kejun, additional, Shan, Huan, additional, Guo, Yuqiao, additional, Wu, Jiajing, additional, Su, Yueqi, additional, Wu, Qiran, additional, Sun, Zhe, additional, Zhao, Aidi, additional, Cui, Xuefeng, additional, Wu, Changzheng, additional, and Xie, Yi, additional

Published

2017

22. Imaging metal-like monoclinic phase stabilized by surface coordination effect in vanadium dioxide nanobeam

Author

Li, Zejun, primary, Wu, Jiajing, additional, Hu, Zhenpeng, additional, Lin, Yue, additional, Chen, Qi, additional, Guo, Yuqiao, additional, Liu, Yuhua, additional, Zhao, Yingcheng, additional, Peng, Jing, additional, Chu, Wangsheng, additional, Wu, Changzheng, additional, and Xie, Yi, additional

Published

2017

23. Nonconvex L1-2 Regularization for Fast Cone-Beam X-Ray Luminescence Computed Tomography

Author

Zhang Haibo, 张海波, primary, Geng Guohua, 耿国华, additional, Zhao Yingcheng, 赵映程, additional, Sun Yi, 孙 怡, additional, Yi Huangjian, 易黄建, additional, Hou Yuqing, 侯榆青, additional, and He Xiaowei, 贺小伟, additional

Published

2017

24. Solution Processing for Lateral Transition-Metal Dichalcogenides Homojunction from Polymorphic Crystal.

Author

Wu, Jiajing, Peng, Jing, Zhou, Yuan, Lin, Yue, Wen, Xiaolei, Wu, Junchi, Zhao, Yingcheng, Guo, Yuqiao, Wu, Changzheng, and Xie, Yi

Published

2019

25. Nonconvex L1-2 Regularization for Fast Cone-Beam X-Ray Luminescence Computed Tomography

Author

张海波 Zhang Hai-bo, 赵映程 Zhao Yingcheng, 易黄建 Yi Huang-jian, 侯榆青 Hou Yuqing, 孙 怡 Sun Yi, 贺小伟 He Xiaowei, and 耿国华 Geng Guohua

Subjects

Physics, medicine.medical_specialty, medicine.diagnostic_test, business.industry, X ray luminescence, Computed tomography, Regularization (mathematics), Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Optics, Cone (topology), medicine, Medical physics, business, Beam (structure)

Published

2017

26. Hydrogen Treatment for Superparamagnetic VO2 Nanowires with Large Room-Temperature Magnetoresistance

Author

Li, Zejun, primary, Guo, Yuqiao, additional, Hu, Zhenpeng, additional, Su, Jihu, additional, Zhao, Jiyin, additional, Wu, Junchi, additional, Wu, Jiajing, additional, Zhao, Yingcheng, additional, Wu, Changzheng, additional, and Xie, Yi, additional

Published

2016

27. Enhanced oxygen evolution reaction of metallic nickel phosphide nanosheets by surface modification

Author

Li, Zejun, primary, Dou, Xinyu, additional, Zhao, Yingcheng, additional, and Wu, Changzheng, additional

Published

2016

28. Hydrogen Treatment for Superparamagnetic VO2 Nanowires with Large Room-Temperature Magnetoresistance.

Author

Li, Zejun, Guo, Yuqiao, Hu, Zhenpeng, Su, Jihu, Zhao, Jiyin, Wu, Junchi, Wu, Jiajing, Zhao, Yingcheng, Wu, Changzheng, and Xie, Yi

Subjects

SUPERPARAMAGNETIC materials, NANOWIRES, FERROMAGNETIC materials, DIMERS, MAGNETORESISTANCE, MAGNETIC transitions, MAGNETISM

Abstract

One ‐ dimensional (1D) transition metal oxide (TMO) nanostructures are actively pursued in spintronic devices owing to their nontrivial d electron magnetism and confined electron transport pathways. However, for TMOs, the realization of 1D structures with long ‐ range magnetic order to achieve a sensitive magnetoelectric response near room temperature has been a longstanding challenge. Herein, we exploit a chemical hydric effect to regulate the spin structure of 1D V – V atomic chains in monoclinic VO2 nanowires. Hydrogen treatment introduced V3+ (3d2) ions into the 1D zigzag V – V chains, triggering the formation of ferromagnetically coupled V3+ – V4+ dimers to produce 1D superparamagnetic chains and achieve large room ‐ temperature negative magnetoresistance (−23.9 %, 300 K, 0.5 T). This approach offers new opportunities to regulate the spin structure of 1D nanostructures to control the intrinsic magnetoelectric properties of spintronic materials. Die Spinstruktur der eindimensionalen V ‐ V ‐ Ketten in monoklinen VO2 ‐ Nanodrähten wurde durch Wasserstoffbehandlung modifiziert, wodurch V3+ ‐ Ionen und ferromagnetisch gekoppelte V3+ ‐ V4+ ‐ Dimere in den Ketten erzeugt wurden. Die neue Struktur besteht aus superparamagnetischen Ketten und zeichnet sich durch einen großen negativen Magnetwiderstand bei Raumtemperatur aus. [ABSTRACT FROM AUTHOR]

Published

2016