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1. One-Dimensional Magnetic FeCoNi Alloy Toward Low-Frequency Electromagnetic Wave Absorption

Author

Bintong Yang, Jiefeng Fang, Chunyang Xu, Hui Cao, Ruixuan Zhang, Biao Zhao, Mengqiu Huang, Xiangyu Wang, Hualiang Lv, and Renchao Che

Subjects
Medium-entropy magnetic alloy, One-dimension, Off-axis electronic holography technique, Improved electrospinning, Lower-frequency electromagnetic wave absorption, Technology
Abstract

Abstract Rational designing of one-dimensional (1D) magnetic alloy to facilitate electromagnetic (EM) wave attenuation capability in low-frequency (2–6 GHz) microwave absorption field is highly desired but remains a significant challenge. In this study, a composite EM wave absorber made of a FeCoNi medium-entropy alloy embedded in a 1D carbon matrix framework is rationally designed through an improved electrospinning method. The 1D-shaped FeCoNi alloy embedded composite demonstrates the high-density and continuous magnetic network using off-axis electronic holography technique, indicating the excellent magnetic loss ability under an external EM field. Then, the in-depth analysis shows that many factors, including 1D anisotropy and intrinsic physical features of the magnetic medium-entropy alloy, primarily contribute to the enhanced EM wave absorption performance. Therefore, the fabricated EM wave absorber shows an increasing effective absorption band of 1.3 GHz in the low-frequency electromagnetic field at an ultrathin thickness of 2 mm. Thus, this study opens up a new method for the design and preparation of high-performance 1D magnetic EM absorbers.

Published
2022
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2. The influence of turbulence on sediment phosphorus sorption

Author

Xian Zhu, Yongping Chen, Chunyang Xu, Perran L.M. Cook, Bismark Odum, Min Gan, and Changkuan Zhang

Subjects
Adsorption and desorption, Turbulence kinetic energy, Dissolved inorganic phosphorus, Langmuir model, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350
Abstract

The effect of mean flow velocity on phosphorus (P) partitioning between water and sediment has received much attention in recent decades. However, the impact of turbulence on the efficiency and capability of sediment adsorbing and desorbing dissolved inorganic phosphorus (DIP) is still unclear. A series of contrasting experiments on the sediment sorption and desorption of DIP with the flow turbulence kinetic energy (TKE) ranging from 1.95 to 2.93 pa have been conducted. It was found that the adsorbed P onto unit mass of sediment increases with the increase in TKE. It is because an increase in TKE results in a rise in the effective adsorption capacity of sediment (bm) by 20–30% during the adsorption process. The bm shows the maximum rise from 0.18 to 0.25 mg/g when TKE increases from 1.95 to 2.93 pa with a fixed sediment concentration of 0.5 g/L. To account for the direct effect of TKE on P adsorption, the Langmuir model is modified by introducing a newly defined coefficient (fA−TKE). The fA−TKE shows a good linear relationship with TKE. Comparison between the modified model and the classic model shows that the amount of adsorbed P could be overestimated by over 50% if the direct effect of turbulence intensity is ignored. The experimental data show that the increase in TKE also enhances the desorption process, with the degree of P desorption (Ddes) increased by 44%. The relation between Ddes and TKE can be well represented using a logarithmic function to quantify the direct effect of turbulence intensity on desorption of P.

Published
2023
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3. Wind effect on sediment suspensions over silt-dominated mixtures: An experimental study

Author

Yongping Chen, Jinshan Pu, Qin Zhu, Min Su, Zeng Zhou, Zhongxing Qiao, Chunyang Xu, and Peng Yao

Subjects
suspended sediment concentration, turbulence intensity, wind effect, silt-dominated mixture, flume experiment, Science, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

A series of laboratory experiments have been conducted to explore the wind effect on Sediment Suspended Concentrations (SSCs) in fine-grained coastal systems. The paddle waves were overplayed with surface-blowing winds in a wind-wave flume to mimic offshore swells coupling with local wind waves during rough weather. Both SSCs and water turbulences under different wind and wave conditions have been investigated over two kinds of sediment beds (Sediment 1, S1, D50 = 52µm and Sediment 2, S2, D50 = 90µm). The High Concentration Layers (HCL) were formed under most of the wave-only conditions, while with the introduction of the stronger wind, more sediment suspensions were transported upward, increasing SSCs in upper water elevations. The finer sediment S1 is easier to suspend than S2 under the same conditions. The enhancement of the vertical turbulence intensity (σw) by winds is the main reason for the increase in SSCs. Meanwhile, because the wind-induced turbulence can hardly penetrate the HCL, the turbulence intensities outside the HCL can be further amplified compared to the experiment without a sediment bed. The wind contributes over 65% of the SSC enlargement above the HCL under a wind of 10m/s for S1, while less than 20% inside the HCL in most wind conditions. The sediment mixing coefficient (ϵs), a crucial parameter for suspended sediment modeling, was enhanced with stronger winds. Although the existing formulas for the vertical distribution of ϵs are valid under both wave-only and small winds (2.5 m/s) for both sediment beds, the enhancement of ϵs caused by strong winds cannot be captured, requiring further research.

Published
2023
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4. Clinical comparison of percutaneous transforaminal endoscopic discectomy and unilateral biportal endoscopic discectomy for single-level lumbar disc herniation

Author

Xiaokang Cheng, Beixi Bao, Yuxuan Wu, Yuanpei Cheng, Chunyang Xu, Yang Ye, Chentao Dou, Bin Chen, Hui Yan, and Jiaguang Tang

Subjects
lumbar disc herniation, percutaneous transforaminal endoscopic discectomy, unilateral biportal endoscopic discectomy, endoscopic, minimally invasive surgery, Surgery, RD1-811
Abstract

PurposeTo compare the clinical outcomes of percutaneous transforaminal endoscopic discectomy (PTED) and unilateral biportal endoscopic discectomy (UBE) for the treatment of single-level lumbar disc herniation (LDH).Materials and methodsFrom January 2020 to November 2021, 62 patients with single-level LDH were retrospectively reviewed. All patients underwent spinal surgeries at the Affiliated Hospital of Chengde Medical University and Beijing Tongren Hospital, Capital Medical University. Among them, 30 patients were treated with UBE, and 32 were treated with PTED. The patients were followed up for at least one year. Patient demographics and perioperative outcomes were reviewed before and after surgery. The Oswestry Disability Index (ODI), visual analog scale (VAS) for back pain and leg pain, and modified MacNab criteria were used to evaluate the clinical outcomes. x-ray examinations were performed one year after surgery to assess the stability of the lumbar spine.ResultsThe mean ages in the UBE and PTED groups were 46.7 years and 48.0 years, respectively. Compared to the UBE group, the PTED group had better VAS scores for back pain at 1 and 7 days after surgery (3.06 ± 0.80 vs. 4.03 ± 0.81, P 0.05). Although the good-to-excellent rate of the modified MacNab criteria in the UBE group was similar to that in the PTED group (86.7% vs. 87.5%, P > 0.05), PTED was advantageous in terms of the operation time, estimated blood loss, incision length, and length of postoperative hospital stay.ConclusionsBoth UBE and PTED have favorable outcomes in patients with single-level LDH. However, PTED is superior to UBE in terms of short-term postoperative back pain relief and perioperative quality of life.

Published
2023
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5. 3D Seed-Germination-Like MXene with In Situ Growing CNTs/Ni Heterojunction for Enhanced Microwave Absorption via Polarization and Magnetization

Author

Xiao Li, Wenbin You, Chunyang Xu, Lei Wang, Liting Yang, Yuesheng Li, and Renchao Che

Subjects
Microwave absorption, Two-dimensional materials, MXene, Magnetic coupling network, Synergistic effect, Technology
Abstract

Highlights Benefiting from the possible “seed-germination” effect, the “seeds” Ni2+ grow into “buds” Ni nanoparticles and “stem” carbon nanotubes (CNTs) from the enlarged “soil” of MXene skeleton. Compared with the traditional magnetic agglomeration, the MXene-CNTs/Ni hybrids exhibit the highly spatial dispersed magnetic architecture. 3D MXene-CNTs/Ni composites hold excellent microwave absorption performance (−56.4 dB at only 2.4 mm). Abstract Ti3C2Tx MXene is widely regarded as a potential microwave absorber due to its dielectric multi-layered structure. However, missing magnetic loss capability of pure MXene leads to the unmatched electromagnetic parameters and unsatisfied impedance matching condition. Herein, with the inspiration from dielectric-magnetic synergy, this obstruction is solved by fabricating magnetic CNTs/Ni hetero-structure decorated MXene substrate via a facile in situ induced growth method. Ni2+ ions are successfully attached on the surface and interlamination of each MXene unit by intensive electrostatic adsorption. Benefiting from the possible “seed-germination” effect, the “seeds” Ni2+ grow into “buds” Ni nanoparticles and “stem” carbon nanotubes (CNTs) from the enlarged “soil” of MXene skeleton. Due to the improved impedance matching condition, the MXene-CNTs/Ni hybrid holds a superior microwave absorption performance of − 56.4 dB at only 2.4 mm thickness. Such a distinctive 3D architecture endows the hybrids: (i) a large-scale 3D magnetic coupling network in each dielectric unit that leading to the enhanced magnetic loss capability, (ii) a massive multi-heterojunction interface structure that resulting in the reinforced polarization loss capability, confirmed by the off-axis electron holography. These outstanding results provide novel ideas for developing magnetic MXene-based absorbers.

Published
2021
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6. Customizing Heterointerfaces in Multilevel Hollow Architecture Constructed by Magnetic Spindle Arrays Using the Polymerizing‐Etching Strategy for Boosting Microwave Absorption

Author

Chunyang Xu, Panbo Liu, Zhengchen Wu, Huibin Zhang, Ruixuan Zhang, Chang Zhang, Lei Wang, Longyuan Wang, Bingtong Yang, Ziqi Yang, Wenbin You, and Renchao Che

Subjects
heterointerfaces, microtube, microwave absorption, multilevel hollow architecture, nanospindle arrays, Science
Abstract

Abstract Heterointerface engineering is evolving as an effective approach to tune electromagnetic functional materials, but the mechanisms of heterointerfaces on microwave absorption (MA) remain unclear. In this work, abundant electromagnetic heterointerfaces are customized in multilevel hollow architecture via a one‐step synergistic polymerizing‐etching strategy. Fe/Fe3O4@C spindle‐on‐tube structures are transformed from FeOOH@polydopamine precursors by a controllable reduction process. The impressive electromagnetic heterostructures are realized on the Fe/Fe3O4@C hollow spindle arrays and induce strong interfacial polarization. The highly dispersive Fe/Fe3O4 nanoparticles within spindles build multi‐dimension magnetic networks, which enhance the interaction with incident microwaves and reinforce magnetic loss capacity. Moreover, the hierarchically hollow structure and electromagnetic synergistic components are conducive to the impedance matching between absorbing materials and air medium. Furthermore, the mechanisms of electromagnetic heterointerfaces on the MA are systematically investigated. Accordingly, the as‐prepared hierarchical Fe/Fe3O4@C microtubes exhibit remarkable MA performance with a maximum refection loss of −55.4 dB and an absorption bandwidth of 4.2 GHz. Therefore, in this study, the authors not only demonstrate a synergistic strategy to design multilevel hollow architecture, but also provide a fundamental guide in heterointerface engineering of highly efficient electromagnetic functional materials.

Published
2022
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7. Hierarchical Magnetic Network Constructed by CoFe Nanoparticles Suspended Within 'Tubes on Rods' Matrix Toward Enhanced Microwave Absorption

Author

Chunyang Xu, Lei Wang, Xiao Li, Xiang Qian, Zhengchen Wu, Wenbin You, Ke Pei, Gang Qin, Qingwen Zeng, Ziqi Yang, Chen Jin, and Renchao Che

Subjects
Hierarchical core–shell MOF-based composites, CoFe nanoparticles, Magnetic network, Microwave absorption, Technology
Abstract

Abstract Hierarchical magnetic-dielectric composites are promising functional materials with prospective applications in microwave absorption (MA) field. Herein, a three-dimension hierarchical “nanotubes on microrods,” core–shell magnetic metal–carbon composite is rationally constructed for the first time via a fast metal–organic frameworks-based ligand exchange strategy followed by a carbonization treatment with melamine. Abundant magnetic CoFe nanoparticles are embedded within one-dimensional graphitized carbon/carbon nanotubes supported on micro-scale Mo2N rod (Mo2N@CoFe@C/CNT), constructing a special multi-dimension hierarchical MA material. Ligand exchange reaction is found to determine the formation of hierarchical magnetic-dielectric composite, which is assembled by dielectric Mo2N as core and spatially dispersed CoFe nanoparticles within C/CNTs as shell. Mo2N@CoFe@C/CNT composites exhibit superior MA performance with maximum reflection loss of − 53.5 dB at 2 mm thickness and show a broad effective absorption bandwidth of 5.0 GHz. The Mo2N@CoFe@C/CNT composites hold the following advantages: (1) hierarchical core–shell structure offers plentiful of heterojunction interfaces and triggers interfacial polarization, (2) unique electronic migration/hop paths in the graphitized C/CNTs and Mo2N rod facilitate conductive loss, (3) highly dispersed magnetic CoFe nanoparticles within “tubes on rods” matrix build multi-scale magnetic coupling network and reinforce magnetic response capability, confirmed by the off-axis electron holography.

Published
2021
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8. Ecological Validity of Immersive Virtual Reality (IVR) Techniques for the Perception of Urban Sound Environments

Author

Chunyang Xu, Tin Oberman, Francesco Aletta, Huan Tong, and Jian Kang

Subjects
ecological validity, virtual reality, sound environment, soundscape, sound environment perception, Physics, QC1-999
Abstract

Immersive Virtual Reality (IVR) is a simulated technology used to deliver multisensory information to people under different environmental conditions. When IVR is generally applied in urban planning and soundscape research, it reveals attractive possibilities for the assessment of urban sound environments with higher immersion for human participation. In virtual sound environments, various topics and measures are designed to collect subjective responses from participants under simulated laboratory conditions. Soundscape or noise assessment studies during virtual experiences adopt an evaluation approach similar to in situ methods. This paper aims to review the approaches that are utilized to assess the ecological validity of IVR for the perception of urban sound environments and the necessary technologies during audio–visual reproduction to establish a dynamic IVR experience that ensures ecological validity. The review shows that, through the use of laboratory tests including subjective response surveys, cognitive performance tests and physiological responses, the ecological validity of IVR can be assessed for the perception of urban sound environments. The reproduction system with head-tracking functions synchronizing spatial audio and visual stimuli (e.g., head-mounted displays (HMDs) with first-order Ambisonics (FOA)-tracked binaural playback) represents the prevailing trend to achieve high ecological validity. These studies potentially contribute to the outcomes of a normalized evaluation framework for subjective soundscape and noise assessments in virtual environments.

Published
2020
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9. The feasibility for a novel minimally invasive surgery–percutaneous endoscopic transforaminal lumbar interbody fusion (PE-TLIF) for the treatment of lumbar degenerative diseases: a cadaveric experiment

Author

Peng Yin, Yaoshen Zhang, Aixing Pan, Yi Ding, Liming Zhang, Chunyang Xu, Jincai Yang, and Yong Hai

Subjects
Minimally invasive surgery, Percutaneous, Spinal endoscope, Transforaminal lumbar interbody fusion, Lumbar degenerative diseases, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935
Abstract

Abstract Background The objective of the study was to evaluate our innovative percutaneous endoscopic transforaminal lumbar interbody fusion (PE-TLIF) for the treatment of lumbar degenerative diseases. Methods Two fresh-frozen human cadavers with soft tissues were donated for the experiment. Both cadavers had no history of previous spine surgery. The PE-TLIF surgery was performed on 3 levels (L4-5 of the first one, and L3-4, L4-5 of the second one) in October 2015. The PE-TLIF technique mainly included the following aspects: primary guide pins and a specially designed superior articular process (SAP) guide insertion, working channel setup, endoscopic decompression and fusion, and pedicle screw implantation and fixation. Under the surveillance of C-arm fluoroscope, four primary guide pins were inserted. The inferior primary guide in the hypothetically symptomatic side was confirmed as the first guide pin. At the end of the first guide pin, the specially designed SAP guide was installed. The secondary guide pin was inserted in the SAP via self-designed SAP guide. Under the protection cannula, part of the superior articular process was removed by oriented SAP resection device, so the working channel was smoothly put through the Kambin’s triangle. The endoscope was inserted close to the exiting nerve root. Rotation of the working channel kept the nerve root out of it. Results Three levels of PE-TLIF were successfully performed in two cadavers. Self-designed SAP guide made the secondary guide pin inserting the SAP accurately. Decompression was adequate and the traversing nerve root was relieved. Three aimed intervertebral levels are implanted with two 7-mm-high PEEK cages and one expandable cage. The expandable cage could be adjusted from 8 mm to 13 mm. Surgical incisions included four 15 mm incisions for percutaneous screw fixation and one 12 mm incision for working channel. There was no nerve injury during the operations. Conclusions Our present results showed that the novel minimally invasive surgery PE-TLIF was feasible for the treatment of lumbar degenerative diseases.

Published
2020
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10. Modelling the Effects of Multiple Fractal Dimensions on the Flocculation and Resuspension Processes of Cohesive Sediment

Author

Chunyang Xu, Alan J. S. Cuthbertson, Yan Zhou, Ping Dong, and Yongping Chen

Subjects
flocculation, multifractal dimensions, cohesive sediment, grid-stirred settling column, mud resuspension, tidal channel, Science, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

The flocculation of cohesive sediments represents a critical process in coastal sediment transport, with its appropriate representation in numerical models crucial for the prediction of contaminant transport, coastal morphodynamics and engineering problems. In this study, a flocculation model considering the effects of multiple fractal dimensions is incorporated into a two-phase numerical modelling framework and used to investigate the effects of spatio-temporal variations in sediment concentrations on the temporal evolution of local floc sizes. Initially, the model is applied to simulate the aggregation of clay suspensions in a vertical grid-stirred settling column, with results confirming the importance of multiple fractal dimensions when predicting the time evolution of floc sizes. The adoption of multiple fractal dimensions, in particular, allows the two-phase numerical model to better match the measured settling column data with improved overall correlation. This is especially the case when predicting initial floc size growth during the early period of settling when the flocs tend to adjust more rapidly to their equilibrium sizes. The two-phase model is then applied to simulate field measurements of mud resuspension process in a tidally driven channel. Again, by considering multiple fractal dimensions within the flocculation model, better agreement is obtained between observed and modelled suspended sediment concentrations, while predicted floc sizes are also in general accord with previous field measurements made within the same estuary.

Published
2021
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11. Response of Water Environment to Land Reclamation in Jiaozhou Bay, China Over the Last 150 Years

Author

Chunyang Xu, Chunyan Zhou, Kao Ma, Peng Wang, and Xihe Yue

Subjects
Jiaozhou Bay, coastline change, water-exchange, pollutant transport, land reclamation, long-term evolution, Science, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

Jiaozhou Bay (JZB), located at Qingdao City, north China, is a semi-enclosed shallow bay that has undergone large-scale land reclamation and is suffering from a deteriorated water environment. Long-term evolution of JZB with respect of coastline, tidal prism, tidal dynamics, water-exchange capacity, and pollutant transport from 1863 to 2020 was investigated in this paper, using remote sensing images, historical charts, and a numerical model. The JZB was predominated by natural evolution from 1863 to 1935, during which the coastline barely changed. Thereafter, human intervention became intense and more and more natural tidal flats were replaced by salt ponds, aquaculture area, and reclamation very quickly. As a result, tidal prism, area of tidal flats, and area of JZB decreased sharply by 0.290 km3, 182 km2, and 223 km2, respectively, from 1935 to 2020, corresponding to annual decreasing rates being of 123 times, 10 times, 12 times, respectively, as that of before 1935. A numerical model showed that the residual current in JZB tended to be weaker due to the change of coastline and bathymetry, which is not favoring the water-exchange and pollutant transport, especially in the northeast of JZB. The basin residence time increased from 15.5 days in 1935 to 17.6 days in 2020, because of weaker residual tidal current and smaller tidal prism. Local residence time increased significantly near the area with large land reclamation, especially in the northeast and west of JZB. Distribution of dissolved inorganic nitrogen (DIN), in each year, which is the dominant pollutant in JZB, indicated higher DIN concentration and weaker transport along with reclamation. The research on JZB evolution over the last 150 years can provide useful suggestions for the decision-makers of the local government to improve the marine ecosystem. The systematic method to investigate long-term water environment evolution of JZB can be used to study other semi-closed bays.

Published
2021
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12. Clinical Value of Ultrasonography and Serum Markers in Preoperative N Staging of Thyroid Cancer

Author

Hui Wang, Shanshan Zhao, Chunyang Xu, Jincao Yao, Xiuhua Yu, and Dong Xu

Subjects
lymph node metastasis, neoplasm staging, thyroglobulin, thyroid cancer, ultrasonography, Cytology, QH573-671
Abstract

We aimed to determine factors influencing lymph node metastasis (LNM) and develop a more effective method to assess preoperative N staging. Overall, data of 2130 patients who underwent thyroidectomy for thyroid cancer between 2018 and 2021 were retrospectively analysed. Patients were divided into groups according to pN0, pN1a, and pN1b stages. Pathology was used to analyse the correlation between preoperative serum marker indicators and LNM. Receiver operating characteristic curves were used to compare the diagnostic value of ultrasound (US) examination alone, serum thyroglobulin, age, and combined method for LNM. A significant moderate agreement was observed between preoperative US and postoperative pathology for N staging. Between the pN0 and pN1 (pN1a + pN1b) groups, the differences in free triiodothyronine, anti-thyroid peroxidase antibody, and serum thyroglobulin levels were statistically significant. Among the indicators, serum thyroglobulin was an independent predictor of LNM. The area under the receiver operating characteristic curve was 0.610 for serum thyroglobulin level for predicting LNM, 0.689 for US alone, and 0.742 for the combined method. Both preoperative US and serum thyroglobulin level provide a specific value when evaluating the N staging of thyroid cancer, and the combined method is more valuable in the diagnosis of LNM than US alone.

Published
2022
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13. Kinematic Modeling and Stiffness Analysis of a 3-DOF 3SPS + 3PRS Parallel Manipulator

Author

Shenghao Zhou, Houkun Gao, Chunyang Xu, Zhichao Jia, Junzhe Lin, Qingkai Han, and Zhong Luo

Subjects
3-DOF parallel manipulator, kinematic model, stiffness analysis, workspace, Mathematics, QA1-939
Abstract

The driving mechanism of an axisymmetric vectoring exhaust nozzle (AVEN) is a 3-degrees-of-freedom (3-DOF) parallel manipulator (PM) with a centering device. According to the characteristics of the vectoring nozzle’s movement mechanism, the 3-DOF kinematics model of the 3SPS + 3PRS PM is established. The forward and inverse positional posture models are built based on the mechanism architecture of PM and the closed-loop vector method. The Jacobian matrix and Hessian matrix are derived using screw theory, and velocity and acceleration models are established. Based on the principle of virtual work and combined with the kinematics model of PM, a stiffness model was established to analyze stiffness performance. Finally, the effectiveness of the kinematics model of the PM was verified by a simulation, and the variation of stiffness performances with the positional posture of the PM was quantitatively analyzed. The results show that the translational stiffness decreases with forward axial translation of the moving platform and the rotational stiffness is mainly determined by the posture parameters. This study is expected to offer ideas for the kinematic modeling of 3-DOF PM and provide references for application and optimizing of the AVEN’s driving mechanism.

Published
2022
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14. Calcitonin Gene–Related Peptide Monoclonal Antibody Versus Botulinum Toxin for the Preventive Treatment of Chronic Migraine: Evidence From Indirect Treatment Comparison

Author

Jiajie Lu, Quanquan Zhang, Xiaoning Guo, Wei Liu, Chunyang Xu, Xiaowei Hu, Jianqiang Ni, Haifeng Lu, and Hongru Zhao

Subjects
chronic migraine, CGRP monoclonal antibody, botulinum toxin, indirect treatment comparison, meta-analysis, Therapeutics. Pharmacology, RM1-950
Abstract

Background: The previously approved botulinum toxin and nowadays promising calcitonin gene-related peptide (CGRP) monoclonal antibody have shown efficacy for preventing chronic migraine (CM). However, there is no direct evidence for their relative effectiveness and safety. In this study, we conducted an indirect treatment comparison to compare the efficacy and safety of CGRP monoclonal antibody with botulinum toxin for the preventive treatment of chronic migraine.Methods: Up to August 31, 2020, we systematically searched PubMed, Embase, and Cochrane Library Central Register of Controlled Trials (Central). Weighted mean difference (WMD) and relative risk (RR) were used to evaluate clinical outcomes. Indirect treatment comparison (ITC) software was used to conduct indirect treatment comparison.Results: Ten studies were pooled with 6,325 patients in our meta-analysis. Both botulinum toxin and CGRP monoclonal antibody demonstrated favorable efficacy in the change of migraine days, headache days, HIT-6 score, and 50% migraine responder rate compared with placebo. In indirect treatment comparison, CGRP monoclonal antibody was superior to botulinum toxin in the frequency of acute analgesics intake (WMD = −1.31, 95% CI: −3.394 to 0.774, p = 0.02113), the rate of treatment-related adverse events (AEs) (RR = 0.664, 95% CI: 0.469 to 0.939, p = 0.04047), and the rate of treatment-related serious adverse events (RR = 0.505, 95% CI: 0.005 to 46.98, p < 0.001).Conclusion: For chronic migraine patients, CGRP monoclonal antibody was slightly better than botulinum toxin in terms of efficacy and safety. In the future, head-to-head trials would be better to evaluate the efficacy and safety between different medications in the prevention of chronic migraine.

Published
2021
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15. Lack of association between CYP11B2 -344T/C polymorphism and transient ischemic attack in a Chinese population

Author

Jia Fan, Yaoliang Shen, Bo Chen, Chunyang Xu, Hongwei Ye, Jian Wang, Wenjun Zhou, Yuefeng Sheng, Feng Xu, and Peng Yang

Subjects
Medicine (General), R5-920
Abstract

Objective This study investigated whether the CYP11B2 -344T/C polymorphism is correlated with transient ischemic attack (TIA) susceptibility. Methods We recruited 100 TIA patients and 100 control subjects and analyzed the CYP11B2 -344T/C polymorphism using restriction fragment length polymorphism (PCR–RFLP). Results The frequency in TIA patients and controls was 42% compared with 48% for TT genotypes, 51% compared with 45% for TC genotypes, and 7% compared with 7% for CC genotype, respectively. Allele frequencies in TIA patients and controls were 67.5% compared with 70.5% for T-allele and 32.5% compared with 29.5% for C-allele, respectively. No association between the CYP11B2 -344T/C polymorphism and TIA was observed in all comparisons. Conclusion Our data suggest that there was no association between the CYP11B2 -344T/C polymorphism and TIA in a Chinese population.

Published
2020
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16. Comprehensive Lipidome Profiling of the Kidney in Early-Stage Diabetic Nephropathy

Author

Biyu Hou, Ping He, Peng Ma, Xinyu Yang, Chunyang Xu, Sin Man Lam, Guanghou Shui, Xiuying Yang, Li Zhang, Guifen Qiang, and Guanhua Du

Subjects
diabetic nephropathy, lipidomics, glomerular filtration barrier, lipotoxicity, sphingolipids, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Metabolic changes associated with diabetes are reported to lead to the onset of early-stage diabetic nephropathy (DN). Furthermore, lipotoxicity is implicated in renal dysfunction. Most studies of DN have focused on a single or limited number of lipids, and the lipidome of the kidney during early-stage DN remains to be elucidated. In the present study, we aimed to comprehensively identify lipid abnormalities during early-stage DN; to this end, we established an early-stage DN rat model by feeding a high-sucrose and high-fat diet combined with administration of low-dose streptozotocin. Using a high-coverage, targeted lipidomic approach, we established the lipid profile, comprising 437 lipid species and 25 lipid classes, of the kidney cortex in normal rats and the DN rat model. Our findings additionally confirmed that the DN rat model had been successfully established. We observed distinct lipidomic signatures in the DN kidney, with characteristic alterations in side chain composition and degree of unsaturation. Glyceride lipids, especially cholesteryl esters, showed a significant increase in the DN kidney cortex. The levels of most phospholipids exhibited a decline, except those of phospholipids with side chain of 36:1. Furthermore, the levels of lyso-phospholipids and sphingolipids, including ceramide and its derivatives, were dramatically elevated in the present DN rat model. Our findings, which provide a comprehensive lipidome of the kidney cortex in rats with DN, are expected to be useful for the identification of pathologically relevant lipid species in DN. Furthermore, the results represent novel insights into the mechanistic basis of DN.

Published
2020
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17. Rigid-Flexible Coupling Dynamics Modeling of Spatial Crank-Slider Mechanism Based on Absolute Node Coordinate Formulation

Author

Xiaoyu Wang, Haofeng Wang, Jingchao Zhao, Chunyang Xu, Zhong Luo, and Qingkai Han

Subjects
spatial crank-slider mechanism, absolute node coordinate formulation, Lagrange multiplier method, rigid-flexible coupling dynamics, Mathematics, QA1-939
Abstract

In order to study the influence of compliance parts on spatial multibody systems, a rigid-flexible coupling dynamic equation of a spatial crank-slider mechanism is established based on the finite element method. Specifically, absolute node coordinate formulation (ANCF) is used to formulate a three-dimensional, two-node flexible cable element. The rigid-flexible coupling dynamic equation of the mechanism is derived by the Lagrange multiplier method and solved by the generalized α method and Newton–Raphson iteration method combined. Comparison of the kinematics and dynamics response between rigid-flexible coupling system and pure rigid system implies that the flexible part causes a certain degree of nonlinearity and reduces the reaction forces of joints. The elastic modulus of the flexible part is also important to the dynamics of the rigid-flexible multibody system. With smaller elastic modulus, the motion accuracy and reaction forces become lower.

Published
2022
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18. Lipid Profiling Reveals Browning Heterogeneity of White Adipose Tissue by Β3-Adrenergic Stimulation

Author

Ping He, Biyu Hou, Yanliang Li, Chunyang Xu, Peng Ma, Sin Man Lam, Victoria Gil, Xinyu Yang, Xiuying Yang, Li Zhang, Guanghou Shui, Junke Song, Guifen Qiang, Chong Wee Liew, and Guanhua Du

Subjects
lipid profiling, white adipose tissue, browning heterogeneity, visceral adipose tissue, subcutaneous adipose tissue, Microbiology, QR1-502
Abstract

Background: White adipose tissue (WAT) browning confers beneficial effects on metabolic diseases. However, visceral adipose tissue (VAT) is not as susceptible to browning as subcutaneous adipose tissue (SAT). Aim: Interpreting the heterogeneity of VAT and SAT in brown remodeling and provide promising lipid targets to promote WAT browning. Methods: We first investigated the effects of β3-adrenergic stimulation by CL316,243 on systemic metabolism. Then, high-coverage targeted lipidomics approach with multiple reaction monitoring (MRM) was utilized to provide extensive detection of lipid metabolites in VAT and SAT. Results: CL316,243 notably ameliorated the systemic metabolism and induced brown remodeling of SAT but browning resistance of VAT. Comprehensive lipidomics analysis revealed browning heterogeneity of VAT and SAT with more dramatic alteration of lipid classes and species in VAT rather than SAT, though VAT is resistant to browning. Adrenergic stimulation differentially affected glycerides content in VAT and SAT and boosted the abundance of more glycerophospholipids species in VAT than in SAT. Besides, CL316,243 increased sphingolipids in VAT without changes in SAT, meanwhile, elevated cardiolipin species more prominently in VAT than in SAT. Conclusions: We demonstrated the browning heterogeneity of WAT and identified potential lipid biomarkers which may provide lipid targets for overcoming VAT browning resistance.

Published
2019
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27. Tolvaptan Improves Contrast-Induced Acute Kidney Injury

Author

Chunyang Xu, Xu Huang, Gaoliang Yan, Dong Wang, Meijuan Hu, and Chengchun Tang

Subjects
Male, Oxidative Stress, Endocrinology, Article Subject, urogenital system, Tolvaptan, Internal Medicine, Animals, Apoptosis, Acute Kidney Injury, Rats, Wistar, Kidney, Rats
Abstract

Objective. Contrast-induced acute kidney injury (CI-AKI) is a serious side effect of contrast media use. The purpose of this study was to investigate the role and mechanism of tolvaptan (TOL) in CI-AKI. Methods. 24 Wistar male rats were randomly divided into 4 groups ( n = 6 ). And a rat model of CI-AKI was established. Then, the blood and urine of rats in each group were collected to detect relevant parameters. HE staining was utilized for the observation of the pathological changes of rat kidney tissues, TUNEL assay for the detection of tubular cell apoptosis, biochemical detection for the confirmation of oxidative stress level in kidney tissues, and western blot for the test of the expression of apoptotic proteins and the Nrf2 signaling pathway-related proteins in kidney tissues. Results. TOL could significantly reduce the serum level of urea nitrogen, creatinine, and neutrophil gelatinase-associated lipocalin and decrease serum Cys-C and urine KIM-1 in CI-AKI rats. The result above meant that TOL could improve kidney injury and reduce tubular cell apoptosis in CI-AKI rats. In addition, TOL contributed to a reduction of oxidative stress level by downregulating myeloperoxidase level and increasing the activities of superoxide dismutase and glutathione peroxidase in the kidney tissue of CI-AKI rats. After the pretreatment of TOL, the expression of proapoptotic proteins cleaved-caspase 3 and BAX, as well as mitochondrial fusion proteins DRP1 and MFN2 was downregulated, while the expression of Bcl-2 and PINK1 was upregulated in the kidney tissue of CI-AKI rats. Further, TOL could activate the Nrf2 signaling pathway, and the Nrf2 inhibitor ML385 reversed the effect of TOL on CI-AKI. Conclusion. TOL can improve CI-AKI by activating the Nrf2/HO-1 signaling pathway, inhibiting oxidative stress response, and reducing tubular cell apoptosis.

Published
2022
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29. Selective assembly of magnetic nano-antenna for electromagnetic dissipation

Author

Jiefeng Fang, Hualiang Lv, Biao Zhao, Zhengwang Liu, Xiaohui Li, Chunyang Xu, Ruixuan Zhang, Huibin Zhang, Xianhu Liu, Xuefeng Zhang, Min Wang, and Renchao Che

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

A 3D anisotropic magnetic nanostructure is prepared using a selective assembly approach. Ultrabroad effective absorption bandwidth is achieved by the multi-scale magnetic coupling system we constructed.

Published
2022
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33. Silicate and carbonate mixed shelf formation and its controlling factors, a case study from the Cambrian Canglangpu formation in Sichuan basin, China

Author

Zebin Tong, Zhonggui Hu, Shilin Li, Yufei Huang, Yun’an Zuo, Yixin Zhu, Yulai Pang, Qingmin Dong, and Chunyang Xu

Subjects
General Earth and Planetary Sciences, Environmental Science (miscellaneous)
Abstract

Mixed sedimentation is mainly a phenomenon by which siliciclastic and carbonate are mixed under a similar sedimentary environment. The study of the composition of mixed rock can reflect the sedimentary environment. The mixed sediments of the Canglangpu formation in the eastern Sichuan basin are widely developed and exhibit well exploration prospects. In this study, a classification diagram of mixed sediments suitable for the Canglangpu formation was proposed by combining lithologic characteristics with logging data. Based on the observations of typical outcrop profiles, the identification of thin sections, and drilling and geological logging data, a model was established to identify the electrical responses of the mixed sedimentary rocks in the study area. The results show that (1) the Canglangpu formation can be vertically divided into two complete transgression-regression cycles with the lower part mainly consisting of sedimentary carbonate diamictite and the upper part principally composed of clastic diamictite; (2) mixed sediments in the Canglangpu formation can be divided into six classes, namely carbonate sandstone, argillaceous sandstone, sandy carbonate rock, argillaceous carbonate rock, sandy mudstone, and Carbonate mudstone; (3) the sedimentary environment of the Canglangpu formation be divided into (a) mixed sediments in the shore, which include mixed lagoon and mixed tidal flat, (b) mixed sediments in the shallow marine shelf, which includes mixed beach bar, terrigenous detrital mixed shelf, and carbonate mixed shelf; (4) a mixed shore-mixed shelf sedimentary model has been established; it says that the mixed sediments show obvious characteristics of ring-like development around underwater paleo-heights. The formation mechanism of mixed sedimentation in the eastern Sichuan basin is mainly controlled by the change of sedimentary facies belt, and the development intensity is mainly influenced by early tectonic movement and sea-level change.

Published
2023
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34. Bioinformatics analysis of gene expression network regulation in osteogenic differentiation of human bone marrow mesenchymal stem cells RunningTitle: Bioinformatics analysis of osteogenic differentiation

Author

shuhong zhang, Jingke Yao, Xiaoyuan Bai, Lihua Li, Shuang Li, Xinhui Xu, Yongkun Sun, Chunyang Xu, Hu Zhang, and Xianwei Wang

Abstract

Background: Among mesenchymal stem cells (MSCs), bone marrow mesenchymal stem cells (BMSCs) are considered the gold standard treatment for bone tissue regeneration. BMSCs have become an important cell source in bone and cartilage tissue engineering and regenerative medicine. However, the mechanism of osteogenic differentiation of human bone marrow mesenchymal stem cells (hBMSCs) remains incompletely understood. In this study, we aimed to analyze the function of key gene in osteogenic differentiation of hBMSCs. Methods: From the Gene Expression Omnibus (GEO) database, we downloaded three microarray data sets: GSE12266, GSE18043 and GSE80614. Differentially expressed genes (DEGs) were screened using the ‘limma’ package, and enrichment analysis was performed. Protein–protein interaction network analysis and visualization analysis were performed in the String website and in Cytoscape software. We construct core gene regulatory network, and a reactome-based Gene Set Enrichment Analysis (GSEA) was performed on the differential genes. Experimental verification of target gene expression, osteogenic differentiation and the related markers was assessed by alkaline phosphatase (ALP) activity detection, calcium content detection, alizarin red (ARS) staining and RT-qPCR, respectively. Results: A total of 11,077 DEGs were identified, including 5296 upregulated genes and 5781 downregulated genes. Functional enrichment pathways of the identified DEGs are related to cell cycle, nuclear division, apoptosis, organelle fission, chromosomal region, centromeric region, ATPase activity, tubulin binding, microtubule blinding, shear stress, TNF signaling, etc. Further functional and correlation analyses of four core genes BRCA1, BIRC5, GMNN and TSC22D3, as well as the followed verification experiments including qPCR, ARS and ALP staining all showed that TSC22D3 and BIRC5 were significantly related to the osteogenic differentiation of hBMSCs. Conclusions:This study provides a novel insight into the biological process of osteogenic differentiation of hBMSCs, and identifies novel genes for osteogenic differentiation of MSCs. Meanwhile, the findings in this study also provide potential therapeutic targets for bone tissue engineering.

Published
2022
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36. The therapeutic mechanism of dexamethasone in lung injury induced by hydrogen sulfide.

Author

CHUNYANG XU, CAIYUN YANG, JINSONG ZHANG, XIAOHUA PAN, JUN WANG, LEI JIANG, HONGWEI YE, and BO CHEN

Subjects
*DEXAMETHASONE, *LUNG injuries, *HYDROGEN sulfide, *TRANSMISSION electron microscopy, *IMMUNOHISTOCHEMISTRY, *AQUAPORINS
Abstract

Background: The lung is one of the primary target organs of hydrogen sulfide (H2S), as exposure to H2S can cause acute lung injury (ALI) and pulmonary edema. Dexamethasone (Dex) exerts a protective effect on ALI caused by exposure to toxic gases and is commonly used in the clinic; however, the underlying mechanisms remain elusive, and the dose is unclear. Methods: In vivo experiments: divided C57BL6 mice into 6 groups at random, 12 in each group. The mice were exposed to H2S for 3 h and 5 or 50 mg/kg Dex pretreated before exposure, sacrificed 12 h later. The morphological changes of HE staining and the ultrastructural changes of lungs under transmission electron microscopy were evaluated. The wet/dry ratio of lung tissue was measured. Bronchial alveolar lavage fluid (BALF) protein content and lung permeability index were detected. The expression of AQP5 protein was measured by immunohistochemistry and Western Blot (WB). In vitro experiments: divided human lung adenocarcinoma cell line A549 into 4 groups. 1 µmol/L dexamethasone was added to pre-incubation. The WB analyzed the protein of p-ERK1/2, p-JNK, and p-p38 in MAPK pathway after 1 h of NaHS exposure; six hours after NaHS exposure, the AQP5 protein was measured by WB. Results: Dex treatment could significantly attenuate the H2S-induced destruction to the alveolar wall, increase the wet-to-dry weight ratio and decrease pulmonary permeability index, with high-dose dexamethasone seemingly functioning better. Additionally, our previous studies showed that aquaporin 5 (AQP 5), a critical protein that regulates water flux, decreased both in a mouse and cell model following the exposure to H2S. This study indicates that tThe decrease in AQP 5 can be alleviated by Dex treatment. Additionally, the mitogen activated protein kinase (MAPK) pathway may be involved in the protective effects of Dex in ALI caused by exposure to H2S since H2Sinduced MAPK activation could be inhibited by Dex. Conclusion: The present results indicate that AQP 5 may be considered a therapeutic target for Dex in H2S or other hazardous gases-induced ALI. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Phase Transition Induced via the Template Enabling Cocoon-like MoS

Author

Jiefeng, Fang, Wenbin, You, Chunyang, Xu, Bintong, Yang, Min, Wang, Jincang, Zhang, and Renchao, Che

Abstract

Structural engineering via the template method is efficient for micro-nano assembling. However, only structural design and lack of composition control restrict their advanced application. To overcome this issue, applying a template to simultaneously realize the structural design and fine component control is highly desired, which has been ignored. In this study, a spinel-shaped MoS

Published
2022

38. Erosion Behavior of Sand‐Silt Mixtures: Revisiting the Erosion Threshold

Author

Peng Yao, Min Su, Zhengbing Wang, Leo C. van Rijn, Marcel J. F. Stive, Chunyang Xu, and Yongping Chen

Subjects
sand-silt mixtures, silt content, critical bed shear stress, flume experiment, erosion threshold, Water Science and Technology
Abstract

The erosion threshold, beyond which bed sediments start to move, is a key parameter describing sediment transport processes. For silt-dominated mixtures, in which the grain size is between sand and clay, existing experimental studies exhibit contradictory observations. That is, the erosion was either sand-like or clay-like, suggesting transitional erosion behavior. To explore the underlying mechanism of the transitional erosion behavior of silt-sized sediment, we revisited the topic of the erosion threshold of sand-silt mixtures by carrying out a series of erosion experiments for different bed compositions. The results suggest that there exists a critical silt content of approximately 35%, separating two domains. Below this critical value, the critical bed shear stress follows the Shields criterion, whereas above this value, the erosion threshold of a mixed bed increases abruptly and remains relatively constant with a further increase in silt content. By combining with existing data, we found that the proposed critical silt content acts as a tipping point, beyond which the mixed bed shifts from a sand-dominated to a silt-dominated domain. For the silt-dominated domain, a stable silt skeleton can be formed by attraction forces that resist erosion. However, the attraction forces are too weak to form a stable silt skeleton when the silt content is too small. Based on this finding, a modified critical bed shear stress formula is proposed for silt-dominated mixtures, which results in a better agreement with experimental data (an averaged bias of 10%), performing better than existing formulas (larger than 30%).

Published
2022
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40. Hierarchical Magnetic Network Constructed by CoFe Nanoparticles Suspended Within 'Tubes on Rods' Matrix Toward Enhanced Microwave Absorption

Author

Zhengchen Wu, Xiang Qian, Ziqi Yang, Chen Jin, Chunyang Xu, Lei Wang, Qingwen Zeng, Xiao Li, Ke Pei, Renchao Che, Wenbin You, and Gang Qin

Subjects
Materials science, lcsh:T, Reflection loss, Composite number, Microwave absorption, Nanoparticle, Heterojunction, Carbon nanotube, Dielectric, CoFe nanoparticles, Magnetic network, lcsh:Technology, Electron holography, Article, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, Chemical engineering, law, Electrical and Electronic Engineering, Absorption (electromagnetic radiation), Hierarchical core–shell MOF-based composites
Abstract

Highlights Three-dimension hierarchical core–shell Mo2N@CoFe@C/CNT composites were successfully constructed via a fast MOF-based ligand exchange strategy.Abundant magnetic CoFe nanoparticles suspended within “nanotubes on microrods” matrix exhibited strong magnetic loss capability, confirmed by off-axis electron holography.Hierarchical Mo2N@CoFe@C/CNT composites displayed remarkable microwave absorption value of − 53.5 dB. Electronic supplementary material The online version of this article (10.1007/s40820-020-00572-5) contains supplementary material, which is available to authorized users., Hierarchical magnetic-dielectric composites are promising functional materials with prospective applications in microwave absorption (MA) field. Herein, a three-dimension hierarchical “nanotubes on microrods,” core–shell magnetic metal–carbon composite is rationally constructed for the first time via a fast metal–organic frameworks-based ligand exchange strategy followed by a carbonization treatment with melamine. Abundant magnetic CoFe nanoparticles are embedded within one-dimensional graphitized carbon/carbon nanotubes supported on micro-scale Mo2N rod (Mo2N@CoFe@C/CNT), constructing a special multi-dimension hierarchical MA material. Ligand exchange reaction is found to determine the formation of hierarchical magnetic-dielectric composite, which is assembled by dielectric Mo2N as core and spatially dispersed CoFe nanoparticles within C/CNTs as shell. Mo2N@CoFe@C/CNT composites exhibit superior MA performance with maximum reflection loss of − 53.5 dB at 2 mm thickness and show a broad effective absorption bandwidth of 5.0 GHz. The Mo2N@CoFe@C/CNT composites hold the following advantages: (1) hierarchical core–shell structure offers plentiful of heterojunction interfaces and triggers interfacial polarization, (2) unique electronic migration/hop paths in the graphitized C/CNTs and Mo2N rod facilitate conductive loss, (3) highly dispersed magnetic CoFe nanoparticles within “tubes on rods” matrix build multi-scale magnetic coupling network and reinforce magnetic response capability, confirmed by the off-axis electron holography. Electronic supplementary material The online version of this article (10.1007/s40820-020-00572-5) contains supplementary material, which is available to authorized users.

Published
2021

41. Pb/C Composite with Spherical Pb Nanoparticles Encapsulated in Carbon Microspheres as a High-Performance Anode for Lithium-Ion Batteries

Author

Liting Yang, Yunhao Zhao, Xianhu Liu, Chunyang Xu, Renchao Che, Qing X. Li, and Ke Pei

Subjects
Nanotube, Materials science, Energy Engineering and Power Technology, chemistry.chemical_element, Nanoparticle, Electrochemistry, Lithium-ion battery, Anode, Chemical engineering, chemistry, Electrode, Materials Chemistry, Chemical Engineering (miscellaneous), Lithium, Electrical and Electronic Engineering, Carbon
Abstract

The appropriate exploitation of the plentiful recycled Pb from discarded lead-acid batteries is both challenging and profitable, which can alleviate lead pollution and provide the advantage of using Pb as the potential resource. Pb with a high theoretical capacity (569 mA h g–1), excellent electrical conductivity, low price, and high safety demonstrates great potential as an anode for lithium-ion batteries (LIBs). Herein, the Pb/C composite with a “spherical Pb nanoparticles encapsulated in carbon microspheres” (PNCM) structure is synthesized via a hydrothermal method, demonstrating an attractive capacity of 852/443 mA h g–1 after 850/2000 cycles at 0.5/1 A g–1 as an anode material for LIBs. The Pb nanoparticles with a size of 20–50 nm are uniformly distributed in the carbon microspheres. The carbon matrix as a barrier effectively prevents the aggregation and volume expansion of Pb nanoparticles during the cycling process. To make further improvement in electrochemical performance, a flexible binder-free PNCM–carbon nanotube (CNT) film (PCF) electrode is prepared without a polymeric binder and a metal current collector. The absence of the binder and the uniform distribution of CNTs endow the PCF electrode with excellent electrical conductivity. The PCF electrode shows a prominent improvement in electrochemical performance compared with a PNCM electrode, displaying a capacity of as high as 705 mA h g–1 after 2000 cycles at 1 A g–1.

Published
2020
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43. Innovative Percutaneous Endoscopic Transforaminal Lumbar Interbody Fusion of Lumbar Spinal Stenosis with Degenerative Instability: A Non-Randomized Clinical Trial

Author

Daming Pang, Lijin Zhou, Haifeng Gao, Chunyang Xu, Yong Hai, Jincai Yang, Peng Yin, and Yi Ding

Subjects
spinal endoscope, medicine.medical_specialty, Percutaneous, business.industry, lumbar spinal stenosis, Lumbar spinal stenosis, medicine.disease, law.invention, Surgery, Anesthesiology and Pain Medicine, percutaneous, Randomized controlled trial, law, Lumbar interbody fusion, transforaminal lumbar interbody fusion, medicine, pain, Journal of Pain Research, business, minimally invasive surgery, Original Research
Abstract

Peng Yin,* Yi Ding,* Lijin Zhou, Chunyang Xu, Haifeng Gao, Daming Pang, Yong Hai, Jincai Yang Department of Orthopaedics, Beijing Chao-Yang Hospital, China Capital Medical University, Beijing, People’s Republic of China*These authors contributed equally to this workCorrespondence: Jincai Yang; Yong Hai Tel +86 1001085231327; +86 1001085231326Fax +86 10 85231229; +86 10 85231360Email jcyang2018@126.com; yonghaispine@126.comPurpose: Lumbar spinal stenosis (LSS) with instability is most common lumbar degenerative diseases for people with low back pain. The objective of this study was to compared the clinical effects for the treatment of lumbar spinal stenosis (LSS) with degenerative instability between the innovative percutaneous endoscopic transforaminal lumbar interbody fusion (PE-TLIF) technique and posterior lumbar interbody fusion (PLIF) technique.Patients and Methods: Between April 2019 and April 2020, 114 patients with single-segment LSS were prospectively included in our study (ChiCTR1900022492). Visual Analogue Scale (VAS) on lumbar and leg pain (VAS-LBP, VAS-LP), Oswestry Disability Index (ODI), serum creatine kinase (CK), the maximal cross-sectional area of multifidus muscle (Max-CSA) and the peak intensity of sulphur hexafluoride microbubble contrast agent (PI) around the surgical incision by contrast-enhanced ultrasonography were evaluated preoperatively, post-operatively and at regular follow-up.Results: All patients were followed up. The VAS-LBP, VAS-LP, ODI after operation were improved significantly compared to these data before operation in all the patients (P< 0.05). The VAS-LBP at 1 weeks, 3 months after operation in PE-TLIF group were significantly lower than these in PLIF group (P< 0.05). The injury degree of multifidus muscle evaluated by MAX-CSA and PI was significantly less in PE-TLIF group after operation (P< 0.05). There was no significant difference on the complication rate between these two groups (P> 0.05).Conclusion: Our results presented PE-TLIF technique could obtain comparable effective outcomes as conventional PLIF for the treatment of LSS with degenerative instability. The patients with PE-TLIF had less muscle injury, less pain and quicker postoperative rehabilitation.Keywords: pain, minimally invasive surgery, percutaneous, spinal endoscope, transforaminal lumbar interbody fusion, lumbar spinal stenosis

Published
2021

44. Supportive soundscapes are crucial for sustainable environments

Author

Jian Kang, Francesco Aletta, Tin Oberman, Andrew Mitchell, Mercede Erfanian, Huan Tong, Simone Torresin, Chunyang Xu, Tingting Yang, and Xiaochao Chen

Subjects
Sound, Environmental Engineering, Environmental Chemistry, Acoustics, Noise, Pollution, Waste Management and Disposal, Soundscape, Noise pollution, Sustainability, WHO
Abstract

Discussion paper on importance on considering noise pollution within the sustainability discourse by using the soundscape framework.

Published
2023
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45. Hierarchical Ti

Author

Chang, Zhang, Zhengchen, Wu, Chunyang, Xu, Bintong, Yang, Lei, Wang, Wenbin, You, and Renchao, Che

Abstract

Hierarchical hollow structure with unique interfacial properties holds great potential for microwave absorption (MA). Ti

Published
2021

46. Perceived width evaluation on interpolated line sources in a virtual urban square

Author

Chunyang Xu, Jian Kang, and Huan Tong

Subjects
Computer science, business.industry, Line (geometry), Immersion (virtual reality), Sound sources, Computer vision, Artificial intelligence, Virtual reality, business, Line source, Urban space, Square (algebra), Interpolation
Abstract

The aim of this study is to investigate the relationship between the perceived width and different interpolation setups of a line source, and whether it is possible to reduce interpolations of a line source in a virtual open urban space. In order to auralise sound sources efficiently and accurately, the subjective evaluation was carried out in accordance with Virtual Reality (VR) with spatial audio. The results show that when the audible angle between adjacent interpolation points of a line source is lowered to 1◦ , the perceived width of the line source will significantly improve under VR experience. When the angle is less than 1◦ , the variation in points interpolation does not significantly affect the perceived width. This improvement may enhance the immersion during subjective evaluation, thus creating a more realistic experience.

Published
2021
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47. Synthesis of Nonspherical Hollow Architecture with Magnetic Fe Core and Ni Decorated Tadpole-Like Shell as Ultrabroad Bandwidth Microwave Absorbers

Author

R. J. Zhang, Wenbin You, Chunyang Xu, Xiaohui Li, Min Wang, Xiao Li, Qingwen Zeng, Renchao Che, and Jiefeng Fang

Subjects
Nanostructure, Materials science, business.industry, Reflection loss, Relaxation (NMR), Nanoparticle, General Chemistry, Dielectric, Inductive coupling, Biomaterials, Optoelectronics, General Materials Science, business, Absorption (electromagnetic radiation), Microwave, Biotechnology
Abstract

The advancement of electromagnetic (EM) protection technology promotes the urgent demand for the structural design of electromagnetic functional materials. Here, tadpole-like Fe@SiO2 @C-Ni (FSCN) composites with magnetic core-shell and nonspherical hollow architectures through multiple hydrolysis-polymerization reactions are reported. The Fe core and well-distributed Ni nanoparticles greatly promote the magnetic properties of FSCN and construct a multiscale magnetic coupling network. Meanwhile, the multishell composites consisting of carbon shell with Ni decorated possess an abundance of heterogeneous interfaces, generating effective interfacial polarization and relaxation. The hollow feature and the coordination of magnetic and dielectric capacities offer an optimized impedance balance, providing a fundament for the microwaves propagating into the absorber. Owing to the attractive effects resulted from the deliberate tadpole-like structure design, the FSCN composites ensure an effective EM energy conversion at the high-frequency region, which obtain the strongest reflection loss value of -45.2 dB and the extremely broad effective absorption bandwidth of 13.1 GHz. This work provides an important solution for magnetic-dielectric nanostructure design for microwave absorption and energy conversion materials.

Published
2021

48. Evaluation of the identification ability of eight commonly used plant identification application softwares in China

Author

Jing Guo, Shiyao Liu, Lulu Guo, Cui Xiao, Ying Zhao, Chuan Peng, Weicheng Sun, Jinzhou Wu, Jing Wang, Jiantan Zhang, Jun Geng, Gaoying Gu, Mengqi Cui, Chunyang Xu, Zhanhui Xu, Haotian Liu, Zhaofeng Chang, Di Zheng, Entao Zhang, Keping Ma, Heqi Wang, Chunpeng Guo, Chaoqun Ba, Teng Yang, Jingchao Jia, and Wenqin Tu

Subjects
Plant identification, Ecology, business.industry, Computer science, Identification (biology), Artificial intelligence, business, Machine learning, computer.software_genre, computer, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation
Published
2020
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49. ApoE-modified liposomes mediate the antitumour effect of survivin promoter-driven HSVtk in hepatocellular carcinoma

Author

Xi Wang, Qi Zhang, Chaochao Wen, Hongwei Zhang, Baofeng Yu, Gongqin Sun, Na Zhao, Fanxiu Meng, Rui Guo, Chan Zhang, Lumei Wang, Jun Xu, Chang Liu, Xiushan Dong, Yan Wei, Xiuli Mu, Gaopeng Li, Gong Tao, Qin Qin, and Chunyang Xu

Subjects
0301 basic medicine, Ganciclovir, Cancer Research, Carcinoma, Hepatocellular, Survivin, Genetic enhancement, Gene delivery, Transfection, Mice, 03 medical and health sciences, Apolipoproteins E, 0302 clinical medicine, Animals, Humans, Simplexvirus, Medicine, neoplasms, Molecular Biology, business.industry, Cell growth, Liver Neoplasms, Genetic Therapy, Suicide gene, medicine.disease, digestive system diseases, 030104 developmental biology, Thymidine kinase, 030220 oncology & carcinogenesis, Hepatocellular carcinoma, Liposomes, Cancer research, Molecular Medicine, business, medicine.drug
Abstract

Hepatocellular carcinoma (HCC) is a prevalent malignant tumour with high global morbidity and mortality associated with its multiple aetiologies, poor prognosis, resistance to chemotherapeutic drugs and high rate of recurrence. Here, we evaluated a gene therapy strategy that targets HCC using the herpes simplex virus thymidine kinase/ganciclovir (HSVtk/GCV) suicide gene system in HCC cell lines and in an in vivo human HCC xenograft mouse model. Apolipoprotein E (ApoE)-modified liposomes were used for targeted gene delivery to the tumour tissue, and the survivin promoter was used to drive HSVtk expression in HCC cells. Our results showed that the survivin promoter was specifically activated in tumour cells, and HSVtk was expressed selectively in tumour cells. In combination with GCV treatment, HSVtk expression resulted in the inhibition of HCC cell proliferation via enhanced apoptosis. In addition, tail vein injection of ApoE-HSVtk significantly suppressed the growth of xenograft tumours through an apoptosis-dependent pathway and extended the survival time of tumour-bearing mice. In summary, this study illustrates an effective cancer-specific gene therapy strategy for HCC that can be further developed for future clinical trials.

Published
2019
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50. Highly conductive graphene-modified TiO2 hierarchical film electrode for flexible Li-ion battery anode

Author

Fan Jin, Lei Wang, Chunyang Xu, Bo Wang, Hao Luo, Dianlong Wang, Tong Liu, and Yu Zhou

Subjects
Battery (electricity), Materials science, Graphene, General Chemical Engineering, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Energy storage, 0104 chemical sciences, Anode, law.invention, law, Electrode, 0210 nano-technology, Mesoporous material, Electrical conductor
Abstract

Flexible Li-ion batteries have shown great promise in powering wearable electronic devices due to their high energy/power densities and long cycling time. However, coordinating the promising electrochemical performance and flexibility for different applications is still a big challenge. Herein, we report a highly conductive graphene-modified mesoporous anatase TiO2 (M-TiO2-GS) hierarchical film electrode for flexible Li-ion battery anode via a two-step vacuum filtration method. In such a hierarchical film electrode, the down-layer composed of bare graphene component provides ideal mechanical flexibility and electronic conductivity, and the hybrid top-layer composed of both graphene and active M-TiO2 guarantees effective Li+ and electrons transport pathways and acts as the active layer for energy storage. The designed M-TiO2-GS film electrode delivers a reversible capacity of 205 and 76 mAh g−1 at rates of 0.5C and 20C, respectively, and high capacity retention of ∼70.5% after 3500 cycles at 5C. When packed in flexible cells, the M-TiO2-GS electrode can also maintain a highly reversible capacity and outstanding cycling stability in both flating and benting conditions. This work may provide a promising anode candidate for the next-generation flexible LIBs and the developed two-step filtration method can be readily applied to other flexible electrodes.

Published
2019
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