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1. Advancements in Nanotechnology‐Based PEDOT and Its Composites for Wearable Thermoelectric Applications

Author

Yuran Wang, Wei Dai, Tian Wu, Hongyan Qi, Junhui Tao, Chuanhui Wang, Jie Li, Xiuying Cao, Liangpeng Liu, Liuyi Fang, Chun Wang, Nengyuan Gong, Yuxuan Liu, Xinqi Chen, Wan Jiang, and Xiaolin Wang

Subjects
nanotechnology, poly(3,4‐ethylenedioxythiophene), thermoelectric material, thermoelectric properties, wearable technology, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Thermoelectric materials’ unique merits attract considerable attention. Among those merits, the straight transformation between heat and electricity makes this material potential. The energy of the human body is released in the form of heat, which can be transformed into effective electricity by wearable thermoelectric materials. The nanotechnology‐based materials improve thermoelectric properties and heat absorption abilities for nanostructures will help maintain good electrical conductivity and reduce thermal conductivity. Poly(3,4‐ethylenedioxythiophene) (PEDOT) is extensively investigated for its high conductivity, flexibility, good transparency, and so on. This article reviews its mechanism and describes the preparation techniques and thermoelectric properties of nanotechnology‐based PEDOT, inorganic semiconductor composite, and low‐dimensional metal composite thermoelectric materials. The recent research progress on PEDOT‐based thermoelectric materials, the application of wearable low‐dimensional PEDOT‐based thermoelectric materials, and methods to improve the thermoelectric performance of PEDOT‐based composite materials, device design, and commercialization are specifically discussed.

Published
2024
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2. Depressive symptoms were associated with an elevated prevalence of gallstones among adults in the United States: A cross-sectional analysis of NHANES 2017–2020

Author

Xinqi Chen, Hao Luo, and Meizhen Ye

Subjects
Depressive symptoms, PHQ-9, Gallstone, Prevalence, Cross-sectional study, NHANES, Medicine
Abstract

Background: Gallstone disease is one of the most common gastrointestinal disorders. Despite extensive research exploring the risk factors associated with gallstones, the association between depressive symptoms and gallstones remains inadequately understood. This study aimed to assess the association between depressive symptoms and the prevalence of gallstones among adults in the United States. Methods: In this study, a cross-sectional design utilized data from the National Health and Nutrition Examination Survey (NHANES) spanning the years 2017 to 2020. The assessment of depressive symptoms was conducted through the utilization of the Patient Health Questionnaire-9 (PHQ-9), which assigns total scores ranging from 0 to 27. Participants with PHQ-9 scores equal to or exceeding 10 were categorized as having clinically relevant depressive symptoms. Multivariable adjusted logistic regression and subgroup analysis were used to assess the association between depressive symptoms and gallstone prevalence. Results: A total of 7,797 participants aged 20 years or older were enrolled in this study, of whom 835 had a self-reported history of gallstones. After multiple adjustments, each one-point increase in PHQ-9 scores was associated with a 5 % increase in the risk of gallstones (odds ratio [OR], 1.05; 95 % confidence interval [CI], 1.03, 1.07, P

Published
2024
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3. Genome-wide CRISPR screen identifies ESPL1 limits the response of gastric cancer cells to apatinib

Author

Bei Zhang, Yan Chen, Xinqi Chen, Zhiyao Ren, Hong Xiang, Lipeng Mao, and Guodong Zhu

Subjects
Apatinib resistance, ESPL1, CRISPR screening, MDM2, Gastric cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671
Abstract

Abstract Apatinib was the first anti-angiogenic agent approved for treatment of metastatic gastric cancer (GC). However, the emergence of resistance was inevitable. Thus investigating new and valuable off-target effect of apatinib directly against cancer cells is of great significance. Here, we identified extra spindle pole bodies-like 1 (ESPL1) was responsible for apatinib resistance in GC cells through CRISPR genome-wide gain-of-function screening. Loss of function studies further showed that ESPL1 inhibition suppressed cell proliferation, migration and promoted apoptosis in vitro, and accordingly ESPL1 knockdown sensitized GC cells to apatinib. In addition, we found ESPL1 interacted with mouse double minute 2 (MDM2), a E3 ubiquitin protein ligase, and the combination of MDM2 siRNA with apatinib synergistically ameliorated the resistance induced by ESPL1 overexpression. In summary, our study indicated that ESPL1 played a critical role in apatinib resistance in GC cells. Inhibition of MDM2 could rescue the sensitivity of GC cells to apatinib and reverse ESPL1-mediated resistance.

Published
2024
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4. The Impact of Math-Gender Stereotypes on Students’ Academic Performance: Evidence from China

Author

Yilei Luo and Xinqi Chen

Subjects
math-gender stereotypes, academic performance, gender, STEM, Social sciences (General), H1-99
Abstract

This study investigates the impact of math-gender stereotypes on students’ academic performance using data from the China Education Panel Survey (CEPS), which surveyed nationally representative middle schools in China. Our sample comprises over 2000 seventh-grade students, with an average age of 13 and a standard deviation of 0.711. Among these students, 52.4% are male, and 47.6% are female. Employing a fixed effects model and instrumental variable, our findings are as follows. First, over half of the male students believe that boys are better at math than girls, and they also perceive that their parents and society hold the same belief. In contrast, fewer than half of the female students hold this belief or perception. Intriguingly, among these students, female math performance surpasses that of males. Second, stereotypes hinder female math performance, especially among low-achieving ones, while benefiting high-achieving male students. Finally, perceptions of societal stereotypes have the greatest effect on math performance, followed by self-stereotypes and perceptions of parental stereotypes. Understanding the implications of these findings highlights the importance of addressing math-gender stereotypes to promote equal participation and success for both genders in STEM fields.

Published
2024
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5. Ferroelectric Resistance Switching in Epitaxial BiFeO3/La0.7Sr0.3MnO3 Heterostructures

Author

Hongyan Qi, Weixin Wu, and Xinqi Chen

Subjects
resistance switching, interface, ferroelectric polarization, Schottky barrier, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

BiFeO3/La0.7Sr0.3MnO3 (BFO/LSMO) epitaxial heterostructures were successfully synthesized by pulsed laser deposition on (001)-oriented SrTiO3 single-crystal substrates with Au top electrodes. Stable bipolar resistive switching characteristics regulated by ferroelectric polarization reversal was observed in the Au/BFO/LSMO heterostructures. The conduction mechanism was revealed to follow the Schottky emission model, and the Schottky barriers in high-resistance and low-resistance states were estimated based on temperature-dependent current–voltage curves. Further, the observed memristive behavior was interpreted via the modulation effect on the depletion region width and the Schottky barrier height caused by ferroelectric polarization reversal, combining with the oxygen vacancies migration near the BFO/LSMO interface.

Published
2023
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6. Robust Active Damping Control for LCL-Type Shunt Active Power Filters

Author

Lei Yang, Lihang Zhao, Xinqi Chen, Zhebo Zhang, Heng Nian, Jianyong Zhao, Rongfeng Deng, and Liang Yan

Subjects
Active power filter (APF), current control, phase compensated resonant unit, voltage feedforward, robustness, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

A dual-loop current control is discussed for LCL-type shunt active power filters (APFs), where inverter-side current feedback and point of common coupling (PCC) voltage feedforward both provide active damping (AD) effects for LCL resonance. However, two ADs are equivalently applied to different elements of LCL filter with narrow damping boundaries, which causes less robustness against grid impedance variation. Hence, this paper has presented a comprehensive approach to strengthen the system robustness against grid impedance variation. On the basis of phase compensated resonant unit, a delay-compensation scheme is firstly proposed to extend the damping boundary of inverter-side current feedback up to almost Nyquist frequency ( $f_{s}/2$ ). Theory analysis considering PCC voltage feedforward indicates that the control system can keep robust to grid impedance when the initial LCL resonance frequency falls between $f_{s}/3$ and the extended damping boundary. Moreover, a typical weighted proportional-resonant feedforward scheme is suggested to prevent high-frequency resonant units from inducing system instability under a large grid impedance. We finally validate the effectiveness of the proposed approach through experiments.

Published
2022
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7. Fabric-based flexible thermoelectric generators: Design methods and prospects

Author

Yiping Li, Jingyun Zeng, Yang Zhao, Congran Wang, Chunyang Zhang, Tingting Cheng, Junhui Tao, Jie Li, Chuanhui Wang, Lin Zhang, and Xinqi Chen

Subjects
wearable device, flexible thermoelectric material, thermoelectric generators, fabric, fiber, Technology
Abstract

At the beginning of the 21st century, micro-nano processing technology has developed rapidly, and research on wearable electronic devices has exploded. In particular, flexible thermoelectric materials and thermoelectric generators (TEGs) that have stretchable or foldable properties have been widely studied. Textile-based thermoelectric materials are more suitable for use on the human body than are film or block types of devices, and they are accordingly favoured for wearable smart devices. The design idea of textile thermoelectric materials include the preparation of thermoelectric fibres, textiles, fabric-based films and some novel methods, like using three-dimensional modules to become two-dimensional fabrics by a weaving method, which not to rely something as a base for TE modules. Investigators are thus gaining opportunities to make comfortable and effective fabric TEGs using a wider variety of materials. This article briefly introduces the common methods used to produce textile TEGs. The opportunities and challenges of fabric TEGs are discussed at the end.

Published
2022
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8. Micro-Movement Measured by Laser Heterodyne Interferometer Based on Acousto-Optic Effect

Author

Bailin Lin, Wei Dai, Jun Sun, Mengting Xiao, Zihan He, Jianjian Wu, and Xinqi Chen

Subjects
acousto-optic modulator, heterodyne interference, phase difference, laser, piezoelectric ceramic, Physics, QC1-999
Abstract

In this experiment, the stable output of a dual-frequency laser source is obtained by an acousto-optic modulator due to the Bragg diffraction effect. Furthermore, the non-polarized dual-laser heterodyne interferometer is designed to measure the micro-movement of stacked piezoelectric (PZT) ceramic. This micro-movement can be dynamically determined by comparing the phase difference between the conference beam and measuring beam. The results indicate that the micro-movement of PZT ceramic changes linearly with the driven-voltage in the range of 0–30 V and the sensitivity of movement to voltage is 58.3 nm/V, which is very close to the theoretical value and this laser heterodyne interferometer can be applied for calibrating parameters of PZT ceramic.

Published
2022
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9. Rub‐Resistant Antibacterial Surface Conversion Layer on Stainless Steel

Author

Haiyue Huang, Olivia Willilams Barber, Zhilong Yu, Hun Park, Xiaobing Hu, Xinqi Chen, Chun‐Hu Chen, Erica M. Hartmann, and Jiaxing Huang

Subjects
antimicrobial, coating, oxyhydroxide, stainless steel, surface conversion layer, Physics, QC1-999, Technology
Abstract

Abstract Stainless steels are widely used in hospitals and public transportation vehicles as one of the most common touch surfaces. Retrofitting stainless steel surfaces with an antimicrobial layer can bring potential public health benefits by reducing the ability of inanimate objects, or fomites, to transmit infections. Here, a facile surface conversion reaction between stainless steel and a solution of KMnO4 and CuSO4 is reported, which leads to a conformal and robust oxyhydroxide layer. Microscopy observations show that the layer is amorphous, continuous, and pinhole‐free with a thickness of only 10–15 nm. The coating adheres strongly to stainless steel and can resist rubbing in simulated friction tests, which is attributed to its intermixing with the substrate without forming a sharp interface. Cu ions incorporated into the surface layer can be released into water droplets deposited on the surface and induce antimicrobial activities against bacteria (Pseudomonas aeruginosa PA14) after 30 min of contact.

Published
2022
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11. Performance Optimization for PbTe-Based Thermoelectric Materials

Author

Xinxing Hao, Xinqi Chen, Xing Zhou, Lin Zhang, Junhui Tao, Chuanhui Wang, Tian Wu, and Wei Dai

Subjects
thermoelectric properties, nanostructure, thermal conductivity, carrier concentration, doping modification, General Works
Abstract

Thermoelectric material is a kind of functional material that uses the movement of carriers inside a solid to realize the direct mutual conversion of heat and electric energy. It provides a safe, reliable, pollution-free, noise-free, all-solid-state power generation and cooling method and has a wide range of application prospects. Among them, the characteristics of low valence band degeneracy, low effective quality of conduction band, strong phonon non-harmonicity, simple crystal structure and adjustable microstructure have made PbTe-based materials the focus of research in the thermoelectric field. In this review, two latest strategies to improve the thermoelectric properties of PbTe-based materials are discussed, and the challenges for the further development of PbTe-based thermoelectric materials and the prospects for the future are also outlined.

Published
2021
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12. Excimer Laser-Deposited Na2/3Ni1/4Mn3/4O2 Film Cathode for Stable Sodium-Ion Battery

Author

Bailin Lin, Wei Dai, Junhui Tao, Jie Li, Chuanhui Wang, Yang Zhao, Yiping Li, and Xinqi Chen

Subjects
sodium-ion battery, Na2/3Ni1/4Mn3/4O2, discharge capacity, cycling performance, Chemistry, QD1-999
Abstract

Continued development of lithium-ion batteries is limited by the shortage of Li element. In this situation, the exploration of high-performance sodium-ion batteries is attracting much attention. In this experimental work, Na2/3Ni1/4Mn34O2 film cathode materials were fabricated by excimer laser deposition at different oxygen partial pressures. X-ray diffraction studies and field emission scanning electron microscopy revealed high c-axis orientation and uniform grain distribution, respectively, in the deposited films. Furthermore, after 30 cycles under a current density of 13 mA g−1, the film samples deposited at an oxygen partial pressure of 65 Pa exhibited a high capacity-retention of 91%. The film structure also had a large-current discharge performance, which makes practical applications possible.

Published
2022
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13. Exploring Thermoelectric Property Improvement for Binary Copper Chalcogenides

Author

Xinqi Chen, Jianping Yang, Tomas Katkus, Tian Wu, Junhui Tao, Jie Li, Chuanhui Wang, Xin Wang, and Wei Dai

Subjects
thermoelectric property, nanostructure, thermal conductivity, carrier concentration, flexible materials, Technology
Abstract

Copper chalcogenides have been the subject of extensive research as promising candidates in thermoelectric conversion applications due to their advantageous properties, environmental compatibility, and abundance. The low intrinsic thermal conductivity and high electric conductivity of these materials are born out of the “phonon-liquid electron-crystal” structure between the copper and chalcogens. In this review, strategies for thermoelectric property improvement of copper chalcogenides are discussed. The challenges and the future development of binary copper chalcogenides for further thermoelectric conversion applications are outlined.

Published
2020
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14. Big Potential From Silicon-Based Porous Nanomaterials: In Field of Energy Storage and Sensors

Author

Rana Zafar Abbas Manj, Xinqi Chen, Waheed Ur Rehman, Guanjia Zhu, Wei Luo, and Jianping Yang

Subjects
porous structures, silicon nanomaterials, core shell, bioapplication, lithium ion battery, Chemistry, QD1-999
Abstract

Silicon nanoparticles (SiNPs) are the promising materials in the various applications due to their unique properties like large surface area, biocompatibility, stability, excellent optical and electrical properties. Surface, optical and electrical properties are highly dependent on particle size, doping of different materials and so on. Porous structures in silicon nanomaterials not only improve the specific surface area, adsorption, and photoluminescence efficiency but also provide numbers of voids as well as the high surface to volume ratio and enhance the adsorption ability. In this review, we focus on the significance of porous silicon/mesoporous silicon nanoparticles (pSiNPs/mSiNPs) in the applications of energy storage, sensors and bioscience. Silicon as anode material in the lithium-ion batteries (LIBs) faces a huge change in volume during charging/discharging which leads to cracking, electrical contact loss and unstable solid electrolyte interphase. To overcome challenges of Si anode in the LIBs, mSiNPs are the promising candidates with different structures and coating of different materials to enhance electrochemical properties. On the basis of optical properties with tunable wavelength, pSiNPs are catching good results in biosensors and gas sensors. The mSiNPs with different structures and modified surfaces are playing an important role in the detection of biomarkers, drug delivery and diagnosis of cancer and tumors.

Published
2018
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16. C-reactive protein/lymphocyte ratio as a prognostic biomarker in acute pancreatitis: a cross-sectional study assessing disease severity.

Author

Xinqi Chen, Zhijin Lin, Yani Chen, and Chanchan Lin

Abstract

Background: The C-reactive protein/lymphocyte ratio (CLR) is a prognostic biomarker of various diseases. However, its significance in acute pancreatitis (AP) remains unknown. The main aim of this study was to investigate the association between the CLR and disease severity in patients with AP. Methods: This cross-sectional study included 476 AP patients [mild acute pancreatitis (MAP), n =176; moderately severe acute pancreatitis (MSAP) and severe acute pancreatitis (SAP), n= 300]. The primary exposure of interest was the baseline CLR. The primary outcome was the incidence of moderate to severe AP. Multivariate logistic regression and restricted cubic spline analyses were performed to evaluate the association between the CLR and the incidence of moderate to severe AP. Receiver operating characteristic (ROC) analysis was conducted to assess the predictive efficacy, sensitivity, and specificity of CLR in predicting the incidence of moderate to severe AP. Results: The mean age of the patients was 44 ± 13.2 years, and 76.5% were male. The distribution of CLR was 31.6 (interquartile range, 4.5, 101.7). Moderate to severe AP occurred in 300 cases (63.0%). After multiple adjustments, CLR was independently associated with the incidence of moderate to severe AP (odds ratio, 1.04; 95% CI: 1.03-1.05; P< 0.001). A nonlinear relationship was found between CLR and the incidence of moderate to severe AP, with a threshold of approximately 45. The effect size and CI below and above the threshold value were 1.061 (1.033-1.089) and 1.014 (0.997-1.031), respectively. The area under the curve (AUC) for CLR was 87.577% (95% CI: 84.443-90.710%) with an optimal cut-off value of 30.835, resulting in a sensitivity of 73.7% and a specificity of 88.6%. Conclusions: There was a nonlinear relationship with a saturation effect between the CLR and the incidence of moderate to severe AP. The CLR measured within 24 h of admission may serve as a promising biomarker for predicting the emergence of moderate to severe AP, thereby providing a more scientifically grounded basis for preventing such cases. Nonetheless, further research is warranted to validate and strengthen these findings. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Vertical nanowires enhanced X-ray radiation damage of cells

Author

Liyuan Zheng, Qingxuan Li, Shandong Xu, Xiaofeng Meng, Xinqi Chen, and Ming Su

Subjects
Polymers and Plastics, Mechanics of Materials, Mechanical Engineering, Materials Chemistry, Metals and Alloys, Ceramics and Composites
Published
2023

20. Mechanical Properties of Laser Welded Joint of Copper and Steel Dissimilar Metals

Author

Yiwen REN, Junhui TAO, Jie LI, Xinqi CHEN, Lin ZHANG, Chuanhui WANG, Haiqin JIN, Hongyan QI, Zhuo WANG, Xing XIE, and Jie PAN

Subjects
Multidisciplinary
Abstract

In this research project, copper and stainless steel were connected by two laser welding methods: straight seam welding and swing welding. Then, electronic tensile test machine, X-ray diffractometer, scanning electron microscope and metallographic microscope were used to analyze the tensile properties, macroscopic and microscopic structure morphology and phase of the welded joint. Based on the experimental results, we determined that the strength of the straight seam welded joint was higher. Because of the intermetallic compound near the weld in the swing welding process, it leads to stress concentration, crack cracking and strength reduction. In addition, the oscillating laser beam also leads to the disorderly direction of columnar crystal and coarse structure, which makes the joint strength decrease.

Published
2023

22. A soil-inspired dynamically responsive chemical system for microbial modulation

Author

Yiliang Lin, Xiang Gao, Jiping Yue, Yin Fang, Jiuyun Shi, Lingyuan Meng, Clementene Clayton, Xin-Xing Zhang, Fengyuan Shi, Junjing Deng, Si Chen, Yi Jiang, Fabricio Marin, Jingtian Hu, Hsiu-Ming Tsai, Qing Tu, Eric W. Roth, Reiner Bleher, Xinqi Chen, Philip Griffin, Zhonghou Cai, Aleksander Prominski, Teri W. Odom, and Bozhi Tian

Subjects
General Chemical Engineering, General Chemistry
Abstract

Interactions between the microbiota and their colonized environments mediate critical pathways from biogeochemical cycles to homeostasis in human health. Here we report a soil-inspired chemical system that consists of nanostructured minerals, starch granules and liquid metals. Fabricated via a bottom-up synthesis, the soil-inspired chemical system can enable chemical redistribution and modulation of microbial communities. We characterize the composite, confirming its structural similarity to the soil, with three-dimensional X-ray fluorescence and ptychographic tomography and electron microscopy imaging. We also demonstrate that post-synthetic modifications formed by laser irradiation led to chemical heterogeneities from the atomic to the macroscopic level. The soil-inspired material possesses chemical, optical and mechanical responsiveness to yield write-erase functions in electrical performance. The composite can also enhance microbial culture/biofilm growth and biofuel production in vitro. Finally, we show that the soil-inspired system enriches gut bacteria diversity, rectifies tetracycline-induced gut microbiome dysbiosis and ameliorates dextran sulfate sodium-induced rodent colitis symptoms within in vivo rodent models.

Published
2022

23. High-Porosity Lamellar Films Prepared by a Multistage Assembly Strategy for Efficient Photothermal Water Evaporation and Power Generation

Author

Yiting Wu, Hongqiang Huang, Weiming Zhou, Chuanting You, Huilan Ye, Jia Chen, Shuo Zang, Juhua Yun, Xinqi Chen, Liwei Wang, and Zhanhui Yuan

Subjects
General Materials Science
Abstract

The frame structure combined with water- and heat-transfer capabilities fully satisfies the requirements of photothermal conversion materials in seawater evaporation applications. Meanwhile, it must integrate the characteristics of a high photothermal conversion rate, thermal management, and water transportation. Herein, lamellar porous films were successfully designed and synthesized by a simple ultrasonic-assisted vacuum filtration method. In this process, polystyrene sulfonate@carbon nanotubes/reduced graphene oxide (PSS@CNT/rGO) lamellar films were constructed by the one-dimensional synthesis of PSS@CNT self-assembled at the molecular scale and the two-dimensional matrix material rGO. It is worth noting that the lamellar film exhibits a high specific surface area (285.5 m

Published
2022

26. Weak Fault Detection of Rotor Winding Inter-Turn Short Circuit in Excitation System Based on Residual Interval Observer.

Author

Gang Liu, Xinqi Chen, Lijuan Bao, Linbo Xu, Chaochao Dai, Lei Yang, and Chengmin Wang

Subjects
ELECTROMAGNETIC compatibility, EXCITATION (Physiology), LINEAR matrix inequalities, MATHEMATICAL inequalities, FAULT diagnosis, DYNAMIC testing
Abstract

Aiming at the fact that the rotor winding inter-turn weak faults can hardly be detected due to the strong electromagnetic coupling effect in the excitation system, an interval observer based on current residual is designed. Firstly, the mechanism of the inter-turn short circuit of the rotor winding in the excitation system is modeled under the premise of stable working conditions, and electromagnetic decoupling and system simplification are carried out through Park Transform. An interval observer is designed based on the current residual in the two-phase coordinate system, and the sensitive and stable conditions of the observer is preset. The fault diagnosis process based on the interval observer is formulated, and the observer gain matrix is convexly optimized by linear matrix inequality. The numerical simulation and experimental results show that the inter-turn short circuit weak fault is hardly detected directly through the current signal, but the fault is quickly and accurately diagnosed through the residual internal observer. Compared with the traditional fault diagnosis method based on excitation current, the diagnosis speed and accuracy are greatly improved, and the probability of misdiagnosis also decreases. This method provides a theoretical basis for weak fault identification of excitation systems, and is of great significance for the operation and maintenance of excitation systems. [ABSTRACT FROM AUTHOR]

Published
2023
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29. The Effects of Paroxetine on Benthic Microbial Food Web and Nitrogen Transformation in River Sediments

Author

Yi Li, Xinqi Chen, Xinzi Wang, Jiahui Shang, Lihua Niu, Longfei Wang, Huanjun Zhang, and Wenlong Zhang

Subjects
Paroxetine, Aquatic Organisms, Geologic Sediments, paroxetine, microbial food web, nitrogen, DNA metabarcoding, microbenthic communities, Food Chain, Rivers, Bacteria, Nitrogen, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Ecosystem
Abstract

Paroxetine is a common pharmaceutical to treat depression and has been found to pose threats to aquatic organisms. However, little is known about the effects of paroxetine on the nutrient cycle in aquatic environments. Therefore, DNA metabarcoding is used in this study to analyze the effects of paroxetine on multi-trophic microorganisms and nitrogen transformation in river sediments. Although paroxetine has no significant effect on the diversity of microbenthos, changes in benthic nitrogen-converting bacteria are consistent with the change in the various forms of nitrogen in the sediment, indicating that paroxetine affects the nitrogen conversion process by affecting nitrogen-converting bacteria. In addition, it is found that paroxetine has the ability to influence nitrogen transformation in an indirect way by affecting the trophic transfer efficiency of higher trophic levels (meiofauna and protozoa, protozoa and protozoa), subsequently affecting the growth of nitrogen-converting bacteria through a top-down mechanism (i.e., predation).The results show that paroxetine affects nitrogen transformation directly by affecting nitrogen-converting bacteria and indirectly through top-down effects, emphasizing that the assessment of paroxetine’s ecological risks should consider species within different trophic levels.

Published
2022

30. High-Performance MoC Electrocatalyst for Hydrogen Evolution Reaction Enabled by Surface Sulfur Substitution

Author

Kun He, Xiaobing Hu, Ting Guo, Tianying Liu, Zongyun Mu, Xiangyong Zhang, Zhuangzhi Wu, Xinqi Chen, Vinayak P. Dravid, and Dezhi Wang

Subjects
Tafel equation, Electron transfer, Materials science, chemistry, Hydrogen, Chemical engineering, Molybdenum, chemistry.chemical_element, General Materials Science, Density functional theory, Electrocatalyst, Sulfur, Catalysis
Abstract

Molybdenum carbides have been expected to be one of the promising catalysts for the hydrogen evolution reaction (HER) due to their similar d-band electronic structures to the Pt-group metals. However, the weaker hydrogen-adsorption ability of MoC severely hinders its applications. Guided by density functional theory calculations, we put forward a strategy to design the novel MoC-based electrocatalyst with surface reconstruction through sulfur doping. The incorporation of minor sulfur not only greatly increases the number of active sites and intrinsic activity but also optimizes the electronic structure to improve the electron transfer efficiency. As a result, the as-prepared sulfur-substituted MoC tackles the limitation of the Volmer step and exhibits superior HER performance with a small Tafel slope of 48 mV dec-1. Theoretical investigations demonstrate that the terminal sulfur plays a critical role in facilitating a close to zero hydrogen adsorption energy (ΔGH*) and a lower hydrogen release barrier.

Published
2021

31. Polycrystalline SnSe with a thermoelectric figure of merit greater than the single crystal

Author

Chongjian Zhou, Yea-Lee Lee, Sung Pyo Cho, Oana Cojocaru-Mirédin, Hyungseok Lee, Matthias Wuttig, Xinqi Chen, Ji Yeong Lee, Hyunju Chang, Yong Kyu Lee, Bangzhi Ge, Zhong-Zhen Luo, Sejin Byun, Vinayak P. Dravid, Jino Im, Yuan Yu, In Chung, and Mercouri G. Kanatzidis

Subjects
Materials science, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, chemistry.chemical_compound, Thermal conductivity, Electrical resistivity and conductivity, Thermoelectric effect, General Materials Science, ddc:610, business.industry, Mechanical Engineering, Tin selenide, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Thermoelectric materials, 0104 chemical sciences, chemistry, Mechanics of Materials, Optoelectronics, Crystallite, 0210 nano-technology, business, Tin, Single crystal
Abstract

Nature materials (2021). doi:10.1038/s41563-021-01064-6, Published by Nature Publishing Group, Basingstoke

Published
2021

32. Semi-supervised non-negative Tucker decomposition for tensor data representation

Author

Qibin Zhao, Xinqi Chen, Yuning Qiu, Xinhai Zhao, Guoxu Zhou, and DongPing Zhang

Subjects
Optimization problem, business.industry, Computer science, General Engineering, Pattern recognition, External Data Representation, Tensor (intrinsic definition), Graph (abstract data type), General Materials Science, Artificial intelligence, Cluster analysis, Representation (mathematics), Coefficient matrix, business, Tucker decomposition
Abstract

Non-negative Tucker decomposition (NTD) has been developed as a crucial method for non-negative tensor data representation. However, NTD is essentially an unsupervised method and cannot take advantage of label information. In this paper, we claim that the low-dimensional representation extracted by NTD can be treated as the predicted soft-clustering coefficient matrix and can therefore be learned jointly with label propagation in a unified framework. The proposed method can extract the physically-meaningful and parts-based representation of tensor data in their natural form while fully exploring the potential ability of the given labels with a nearest neighbors graph. In addition, an efficient accelerated proximal gradient (APG) algorithm is developed to solve the optimization problem. Finally, the experimental results on five benchmark image data sets for semi-supervised clustering and classification tasks demonstrate the superiority of this method over state-of-the-art methods.

Published
2021

33. The effectiveness of EVOSKIN®Palm and sole moisturizing cream in treating capecitabine-associated hand-foot syndrome: a randomized double-blind clinical trial

Author

Shicai Chen, Jian Lei, Weiqun Lu, Chuyuan Hong, Chuanfeng Ke, Huizeng Lv, Zhiliang Huang, Rong Su, Yisheng Wei, Haiying Liu, Ping Yang, Xinqi Chen, Xiaojun Tan, Zheng Sun, and Rong Chen

Subjects
Advanced and Specialized Nursing, Antimetabolites, Antineoplastic, medicine.medical_specialty, Chemotherapy, integumentary system, business.industry, Colorectal cancer, MOISTURIZING CREAM, Incidence (epidemiology), medicine.medical_treatment, medicine.disease, Hand-Foot Syndrome, Capecitabine, Clinical trial, Anesthesiology and Pain Medicine, Chemotherapy, Adjuvant, Internal medicine, medicine, Humans, Colorectal Neoplasms, Palm, business, medicine.drug
Abstract

Background This study sought to test the effectiveness of EVOSKIN®Palm and sole moisturizing cream (PSMC) in preventing and treating hand-foot syndrome (HFS) during capecitabine chemotherapy. Methods Stage II/III colorectal cancer patients receiving capecitabine adjuvant chemotherapy were randomly allocated to receive either EVOSKINPSMC or physiological saline treatments for their hands and feet. Treatment was initiated along with adjuvant chemotherapy and continued till the end of chemotherapy. Participants' skin responses were evaluated every 3 weeks. Results During the study, 51 participants in the EVOSKIN PSMC group and 54 participants in the physiological saline group completed at least three cycles of capecitabine chemotherapy. The total incidence of HFS in the EVOSKIN PSMC group was lower than that in the physiological saline group (56.8% vs. 75.9%, P=0.006), as was the incidence of Grade 3/4 HFS (6.0% vs. 18.5%, P=0.011). The incidence of HFS became significant after 6weeks of chemotherapy. Further, the incidence of severe HFS was significant from as early as 3weeks after the commencement of chemotherapy despite the use of EVOSKIN PSMC to manage the condition. Notably, the incidence of Grade 1/2 HFS was not statistically significant between the two groups (26/51 vs. 32/54, 52.0% vs. 59.2%, P=0.194). Conclusions The incidence of severe HFS among individuals using oral capecitabine can be reduced by the prophylactic treatment of EVOSKIN PSMC, this treatment is reasonable and acceptable for patients with capecitabine chemotherapy.

Published
2021

35. Dose–Response Efficacy and Mechanisms of Orally Administered Bifidobacterium breve CCFM683 on IMQ-Induced Psoriasis in Mice

Author

Xinqi Chen, Yang Chen, Catherine Stanton, Reynolds Paul Ross, Jianxin Zhao, Wei Chen, and Bo Yang

Subjects
Nutrition and Dietetics, Bifidobacterium breve, psoriasis, gut microbiota, dose–response efficacy, bile acids, FXR/NF-κB pathway, Food Science
Abstract

This study aimed to investigate the dose–response effect of Bifidobacteriumbreve CCFM683 on relieving psoriasis and its underlying patterns. Specifically, the expression of keratin 16, keratin 17, and involucrin were substantially decreased by administration of 109 CFU and 1010 CFU per day. Moreover, interleukin (IL)-17 and TNF-α levels were substantially decreased by 109 and 1010 CFU/day. Furthermore, the gut microbiota in mice treated with 109 or 1010 CFU/day was rebalanced by improving the diversity, regulating microbe interactions, increasing Lachnoclostridium, and decreasing Oscillibacter. Moreover, the concentrations of colonic bile acids were positively correlated with the effectiveness of the strain in relieving psoriasis. The gavage dose should be more than 108.42 CFU/day to improve psoriasis according to the dose–effect curve. In conclusion, CCFM683 supplementation alleviated psoriasis in a dose-dependent manner by recovering microbiota, promoting bile acid production, regulating the FXR/NF-κB pathway, diminishing proinflammatory cytokines, regulating keratinocytes, and maintaining the epidermal barrier function. These results may help guide probiotic product development and clinical trials in psoriasis.

Published
2023

36. Multiscale architectures boosting thermoelectric performance of copper sulfide compound

Author

Xinqi Chen, Tian Wu, Chao Han, Lianjun Wang, Sheng Jie Fan, Wei Dai, Jianping Yang, and Wan Jiang

Subjects
Materials science, Nanostructure, Room-temperature synthesis, Spark plasma sintering, chemistry.chemical_element, 02 engineering and technology, Copper sulfides, chemistry.chemical_compound, Thermoelectric effect, Materials Chemistry, Physical and Theoretical Chemistry, Phonon scattering, business.industry, 020502 materials, Metals and Alloys, Semiconductor, Condensed Matter Physics, Thermoelectric materials, Copper, Copper sulfide, 0205 materials engineering, chemistry, Thermoelectric properties, Optoelectronics, Grain boundary, Original Article, business
Abstract

Owing to their high performance and earth abundance, copper sulfides (Cu2−xS) have attracted wide attention as a promising medium-temperature thermoelectric material. Nanostructure and grain-boundary engineering are explored to tune the electrical transport and phonon scattering of Cu2−xS based on the liquid-like copper ion. Here multiscale architecture-engineered Cu2−xS are fabricated by a room-temperature wet chemical synthesis combining mechanical mixing and spark plasma sintering. The observed electrical conductivity in the multiscale architecture-engineered Cu2−xS is four times as much as that of the Cu2−xS sample at 800 K, which is attributed to the potential energy filtering effect at the new grain boundaries. Moreover, the multiscale architecture in the sintered Cu2−xS increases phonon scattering and results in a reduced lattice thermal conductivity of 0.2 W·m−1·K−1 and figure of merit (zT) of 1.0 at 800 K. Such a zT value is one of the record values in copper sulfide produced by chemical synthesis. These results suggest that the introduction of nanostructure and formation of new interface are effective strategies for the enhancement of thermoelectric material properties. Supplementary Information The online version of this article (10.1007/s12598-020-01698-6) contains supplementary material, which is available to authorized users.

Published
2021

38. Study on the adsorption properties of metal–organic frameworks (PCN-228’, PCN-230)

Author

Xinqi Chen, Dai Wei, Junhui Tao, Jie Li, Chao-Yang Wang, Chuang-Hui Wang, Tian Wu, Muqing Chen, and Qing-Ping Wang

Subjects
Materials science, Mechanical Engineering, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, Adsorption selectivity, Hydrogen storage, Adsorption, Mechanics of Materials, Physical chemistry, General Materials Science, Metal-organic framework, Absorption (chemistry), 0210 nano-technology, Grand canonical monte carlo
Abstract

The adsorption properties of two kinds of metal–organic frameworks (MOFs), PCN-228ʹ and PCN-230, have been studied by the grand canonical Monte Carlo (GCMC) method for the absorption of N2, H2, CH4...

Published
2020

39. Cation Deficiency Tuning of LaCoO 3 Perovskite as Bifunctional Oxygen Electrocatalyst

Author

Xinqi Chen, Hongmei Luo, Di Huang, Meng Zhou, Haizhen Wang, and Dong Ding

Subjects
Inorganic Chemistry, chemistry.chemical_compound, Materials science, chemistry, Organic Chemistry, Inorganic chemistry, chemistry.chemical_element, Physical and Theoretical Chemistry, Bifunctional, Electrocatalyst, Oxygen, Catalysis, Perovskite (structure)
Published
2020

41. A Bioinspired Multi-Knuckle Dexterous Pneumatic Soft Finger

Author

Yigen Wu, Guolong Zeng, Jinbin Xu, Jiahong Zhou, Xinqi Chen, Zhongbao Wang, Zhuo Chen, Zhenjin Xu, Jianyi Zheng, and Dezhi Wu

Subjects
Metals and Alloys, Electrical and Electronic Engineering, Condensed Matter Physics, Instrumentation, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Published
2022

43. Halovirs I-K, antibacterial and cytotoxic lipopeptaibols from the plant pathogenic fungus Paramyrothecium roridum NRRL 2183

Author

Dongliang, Xiao, Mei, Zhang, Ping, Wu, Tianyi, Li, Wenhua, Li, Liwen, Zhang, Qun, Yue, Xinqi, Chen, Xiaoyi, Wei, Yuquan, Xu, and Chen, Wang

Subjects
Molecular Structure, Tandem Mass Spectrometry, Carcinoma, Hypocreales, Humans, Antineoplastic Agents, Anti-Bacterial Agents, HeLa Cells
Abstract

Three new lipopeptaibols, halovirs I-K (1-3), were isolated from the solid culture of the phytopathogenic fungus Paramyrothecium roridum NRRL 2183. Their planar structures, which consist of a hexapeptide backbone and acyl substitutions at the N- and C-termini, were elucidated by comprehensive analysis of the 1D and 2D NMR spectroscopic data along with the detailed interpretation of the MS/MS fragmentation pattern. Absolute configurations of the amino acid/1,2-amino alcohol residues were determined using the advanced Marfey's method. Bioinformatics analysis of the genome assembly of P. roridum NRRL 2183 revealed a gene cluster that is likely responsible for the biosynthesis of halovirs I-K. Analysis of the module and domain organization of the putative halovir synthetase PrHalA indicated that the assembly of 1-3 proceeds in an unconventional nonlinear fashion. 1 and 2 exhibited potent antibacterial activity against both antibiotic-sensitive and multidrug-resistant Gram-positive pathogens. These lipopeptaibols also displayed significant cytotoxicity toward human lung carcinoma A549, human breast carcinoma MCF-7, and human cervical carcinoma HeLa cells with IC

Published
2021

47. Exploring the Potential of Natural Products From Mangrove Rhizosphere Bacteria as Biopesticides Against Plant Diseases

Author

Lingyun Hao, Xiaoli Zheng, Yu Zhang, Si Chen, Ying Xu, Yu Wang, Xinqi Chen, and Shuangfei Li

Subjects
0301 basic medicine, 030106 microbiology, Chlorella, Plant Science, Biology, 03 medical and health sciences, Anti-Infective Agents, Mancozeb, Plant Diseases, Biological Products, Rhizosphere, Bacteria, food and beverages, Acanthus ilicifolius, Antimicrobial, biology.organism_classification, Plant disease, Fungicide, Biopesticide, Horticulture, 030104 developmental biology, Biological Control Agents, Hong Kong, Agronomy and Crop Science
Abstract

With increasing concerns of the environmental problems associated with current fungicide application, investigation of alternative, environmentally compatible biopesticides for plant disease management is needed. A total of 113 strains associated with Acanthus ilicifolius Linn in the Maipo Reserve, Hong Kong, were isolated and identified. In vitro assay with crude extracts of bacterial fermentation cultures identified ∼26% of the isolates producing antimicrobial compounds against a variety of agriculturally important phytopathogens. Selected crude extracts with inhibition to Colletotrichum fructicola and Magnaporthe oryzae growth significantly suppressed anthracnose and rice blast development in pear fruits and rice plants, respectively, when applied at 50 μg ml−1. Furthermore, 10 of 14 selected crude extracts with good antimicrobial activities had no significant differences in toxicity to the genus Chlorella compared with the control when used at 25 μg ml−1, whereas Amistar Top and Mancozeb completely killed the alga under the same concentration. These data illustrate the potential of natural products from mangrove rhizosphere bacteria in future agricultural application.

Published
2019

48. Enhancing the Cooperative Catalytic Effect in Ni/Co Hydr(oxy)oxide Porous Electrodes for Overall Water Splitting and Glucose Sensing

Author

Pavan Chaturvedi, Swagotom Sarker, Sergei N. Smirnov, Sanjib Das, Xinqi Chen, and Hongmei Luo

Subjects
Materials science, General Chemical Engineering, Oxide, 02 engineering and technology, 010402 general chemistry, Electrochemistry, 01 natural sciences, law.invention, Metal, chemistry.chemical_compound, law, Environmental Chemistry, Energy transformation, Electrolysis, Renewable Energy, Sustainability and the Environment, Oxygen evolution, General Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Chemical engineering, Porous electrode, chemistry, visual_art, visual_art.visual_art_medium, Water splitting, 0210 nano-technology
Abstract

Application of non-noble metal electrocatalysts in energy conversion and electrochemical sensing is of utmost importance. Herein, the enhancement in the electrocatalytic water splitting and nonenzy...

Published
2019

49. Structural analysis of the initial lithiation of NiO thin film electrodes

Author

D. Bruce Buchholz, Xinqi Chen, Michael J. Bedzyk, Byeongdu Lee, Vinayak P. Dravid, Guennadi Evmenenko, Timothy T. Fister, Paul Fenter, and Fernando C. Castro

Subjects
Materials science, Electron energy loss spectroscopy, Non-blocking I/O, General Physics and Astronomy, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Secondary ion mass spectrometry, X-ray reflectivity, X-ray photoelectron spectroscopy, Chemical engineering, Scanning transmission electron microscopy, Grazing-incidence small-angle scattering, Physical and Theoretical Chemistry, Thin film, 0210 nano-technology
Abstract

Observations of the initial lithiation of NiO electrodes demonstrate how to seed conversion reactions using interfaces in a thin film Ni/NiO bilayer architecture. Operando X-ray reflectivity (XRR) reveals that structural changes in a NiO film begin at potentials near the theoretical reduction potential (1.8-2.0 V) with detectable lithiation of both the buried Ni/NiO interface and the outer NiO surface that occur prior to the reaction of the NiO film. This initial conversion reaction is most pronounced in ultrathin NiO films (∼20 Å) with only small changes to the NiO film surface for thicker films (∼67 Å). The limited reactivity of thicker NiO films probed using operando grazing incidence small-angle X-ray scattering (GISAXS) shows the growth of nanoparticles at the electrode/electrolyte interface during initial lithium ion insertion, with a 16-20 Å average radius. Ex situ X-ray photoelectron spectroscopy (XPS), time-of-flight secondary ion mass spectrometry (ToF-SIMS), and scanning transmission electron microscopy/electron energy loss spectroscopy (STEM/EELS) confirm our conclusions about the morphological changes accompanying initial stage of lithiation in these conversion reaction electrodes. The present study reveals the interconnected challenges of solid-solid transitions, overpotentials, interfacial nucleation and kinetics, and transition metal dissolution in conversion-type electrodes that are critical for their use as electrodes in lithium-ion batteries.

Published
2019

50. MoS2-capped CuxS nanocrystals: a new heterostructured geometry of transition metal dichalcogenides for broadband optoelectronics

Author

Jennifer G. DiStefano, Cesar Villa, Akshay A. Murthy, Hee Joon Jung, Vinayak P. Dravid, Yuan Li, Xinqi Chen, Shiqiang Hao, and Chris Wolverton

Subjects
Materials science, Band gap, 02 engineering and technology, Chemical vapor deposition, 010402 general chemistry, 01 natural sciences, law.invention, chemistry.chemical_compound, law, General Materials Science, Electrical and Electronic Engineering, Plasmon, business.industry, Process Chemistry and Technology, Heterojunction, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Photodiode, Copper sulfide, Semiconductor, Nanocrystal, chemistry, Mechanics of Materials, Optoelectronics, 0210 nano-technology, business
Abstract

Heterostructuring of different transition metal dichalcogenides (TMDs) leads to interesting band alignment and performance improvement, and thus enables new routes for the development of materials for next-generation semiconductor electronics. Herein, we introduce a new strategy for the design and synthesis of functional TMD heterostructures. The representative product, molybdenum disulfide-capped copper sulfide (CuxS@MoS2, 1.8 < x < 2.0), is typically obtained by chemical vapor deposition of cap-like MoS2 layers on CuxS nanocrystals, yielding the formation of a sharp, clean heterojunction interface. The heterostructures exhibit strong light–matter interactions over a broadband range, with interesting band alignment for separating photocarriers and mediating charge transfer. A phototransistor made from CuxS@MoS2 heterostructures shows particularly high photoresponse for near infrared light, which is enabled by the heterojunction of MoS2 with a small band gap semiconductor as well as the plasmonic enhancement from the CuxS nanocrystals. Our study paves a way for the development of new TMD heterostructures towards achieving functional electronics and optoelectronics.

Published
2019

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