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Your search keyword '"Jin, Mengjia"' showing total 29 results
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29 results on '"Jin, Mengjia"'

1. Bipolar conduction and giant positive magnetoresistance in doped metallic titanium oxide heterostructures

Author

Huang, Ke, Wang, Tao, Jin, Mengjia, Wu, Liang, Wang, Junyao Floria, Li, Shengyao, Qi, Dong-chen, Cheng, Shuying, Li, Yangyang, Chen, Jingsheng, He, Xiaozhong, Li, Changjian, Pennycook, Stephen J., and Wang, X. Renshaw

Subjects
Condensed Matter - Materials Science
Abstract

Empowering conventional materials with unexpected magnetoelectric properties is appealing to the multi-functionalization of existing devices and the exploration of future electronics. Recently, owing to its unique effect in modulating a matter's properties, ultra-small dopants, e.g. H, D, and Li, attract enormous attention in creating emergent functionalities, such as superconductivity, and metal-insulator transition. Here, we report an observation of bipolar conduction accompanied by a giant positive magnetoresistance in D-doped metallic Ti oxide (TiOxDy) films. To overcome the challenges in intercalating the D into a crystalline oxide, a series of TiOxDy were formed by sequentially doping Ti with D and surface/interface oxidation. Intriguingly, while the electron mobility of the TiOxDy increases by an order of magnitude larger after doping, the emergent holes also exhibit high mobility. Moreover, the bipolar conduction induces a giant magnetoresistance up to 900% at 6 T, which is ~6 times higher than its conventional phase. Our study paves a way to empower conventional materials in existing electronics and induce novel electronic phases.

Published
2021
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11. Giant Positive Magnetoresistance: Bipolar Conduction and Giant Positive Magnetoresistance in Doped Metallic Titanium Oxide Heterostructures (Adv. Mater. Interfaces 9/2021)

Author

Huang, Ke, primary, Wang, Tao, additional, Jin, Mengjia, additional, Wu, Liang, additional, Wang, Junyao Floria, additional, Li, Shengyao, additional, Qi, Dong‐Chen, additional, Cheng, Shuying, additional, Li, Yangyang, additional, Chen, Jingsheng, additional, He, Xiaozhong, additional, Li, Changjian, additional, Pennycook, Stephen J., additional, and Renshaw Wang, Xiao, additional

Published
2021
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12. Bipolar Conduction and Giant Positive Magnetoresistance in Doped Metallic Titanium Oxide Heterostructures

Author

Huang, Ke, primary, Wang, Tao, additional, Jin, Mengjia, additional, Wu, Liang, additional, Wang, Junyao Floria, additional, Li, Shengyao, additional, Qi, Dong‐Chen, additional, Cheng, Shuying, additional, Li, Yangyang, additional, Chen, Jingsheng, additional, He, Xiaozhong, additional, Li, Changjian, additional, Pennycook, Stephen J., additional, and Renshaw Wang, Xiao, additional

Published
2021
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21. Stator flux estimation for direct torque controlled surface mounted permanent magnet synchronous motor drives over wide speed region

Author

Jin Mengjia, Qiu Jianqi, Shi Cenwei, and Lin Rui-guang

Subjects
Quantitative Biology::Subcellular Processes, Physics, Vector control, Direct torque control, Torque motor, Control theory, Stator, law, Torque ripple, Synchronous motor, AC motor, Induction motor, law.invention
Abstract

A novel stator flux estimation scheme for direct torque controlled (DTC) surface mounted permanent magnet synchronous motor (PMSM) drives is proposed in the paper, which achieves better low speed performance. The proposed scheme estimates stator flux from stator currents and rotor position. Both traditional voltage integration estimator and novel stator estimator are implemented in a direct torque controlled PMSM system with SVM technique. The simulation and experimental results show that the proposed stator flux estimator improves low speed performance of the system. In the full speed region the torque ripple and current distortion keeps low.

Published
2005

28. Dietary Xylitol Supplement Ameliorated AD-related Neuronal Injury by Regulating Glucose Metabolism Relevant Amino Acids in Mice.

Author

Jin M, Ji X, Zhu X, Shou Y, Ge Z, and Wang H

Subjects
Mice, Animals, Xylitol therapeutic use, Amino Acids, Mice, Transgenic, Glucose, Disease Models, Animal, Amyloid beta-Protein Precursor, Alzheimer Disease drug therapy, Alzheimer Disease metabolism
Abstract

Background: Alzheimer's disease (AD) is one of the most common irreversible degenerative diseases of the central nervous system. Recent studies have found that patients with AD generally experience abnormal glucose metabolism. Xylitol is a functional sugar alcohol, which has been reported to regulate glucose metabolism., Objective: The present study was designed to determine whether xylitol can alleviate cognitive impairment in AD mice., Methods: In the current research, 5% xylitol was supplemented in the diet to treat APP/PS1 transgenic AD mice for 2 months. Cognitive ability was measured by the Morris water maze, and anxiety-like behaviors were examined by open-field experiment. Hippocampal cellular apoptosis and mitochondria pathway related apoptotic proteins were tested by TUNEL staining and immunoblotting, respectively. By LC-MS, plasma levels of glucose metabolism intermediates and related amino acids were evaluated., Results: Results showed that xylitol could significantly ameliorate anxiety-like activity in AD mice by partially regulating expression levels of mitochondrial pathway-related apoptotic proteins. Xylitolregulated glucose metabolism may play an important role in the process., Conclusion: The current study suggests that xylitol may be a potential candidate for improving neuropsychiatric behavior in AD by regulating the levels of TCA cycle intermediates and related amino acids in glucose metabolism., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published
2023
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29. Concise Synthesis of BN-Dibenzo[ f,k ]tetraphenes with Different BN Substitution Positions and Direct Comparison with Their Carbonaceous Analogue.

Author

Xu X, Jin M, Jiang R, Zhang L, Wu X, and Liu X

Abstract

Two types of "parental" BN-dibenzo[ f,k ]tetraphenes ( BNDBT-1 and BNDBT-2 ) have been synthesized via a transition-metal-catalyzed tandem cross-coupling reaction as key steps. Both BNDBT-1 and BNDBT-2 are fully characterized; one of them is unambiguously confirmed by a single X-ray crystal structure. Compared to its all-carbon analogue DBT , BNDBT-1 and BNDBT-2 exhibit a higher highest occupied molecular orbital (HOMO) and lower lowest unoccupied molecular orbital (LUMO) energy, while the BN doping position slightly influences the HOMO and LUMO energies of BNDBT-1 and BNDBT-2 . Both BNDBT-1 and BNDBT-2 exhibit red-shifted absorption and emission spectra and higher emission efficiencies, as compared to their carbonaceous analogue DBT . Moreover, organic light emitting diodes were fabricated using BNDBT-1 and BNDBT-2 as emitters, demonstrating their potential applications.

Published
2022
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