Your search keyword '"Bin P"' showing total 2,643 results

1. Detection of Impedance Inhomogeneity in Lithium-Ion Battery Packs Based on Local Outlier Factor

Author

Lijun Zhu, Jian Wang, Yutao Wang, Bin Pan, and Lujun Wang

Subjects

Lithium-ion battery, EIS, DRT, battery packs, detection of inhomogeneities, Technology

Abstract

The inhomogeneity between cells is the main cause of failure and thermal runaway in Lithium-ion battery packs. Electrochemical Impedance Spectroscopy (EIS) is a non-destructive testing technique that can map the complex reaction processes inside the battery. It can detect and characterise battery anomalies and inconsistencies. This study proposes a method for detecting impedance inconsistencies in Lithium-ion batteries. The method involves conducting a battery EIS test and Distribution of Relaxation Times (DRT) analysis to extract characteristic frequency points in the full frequency band. These points are less affected by the State of Charge (SOC) and have a strong correlation with temperature, charge/discharge rate, and cycles. An anomaly detection characteristic impedance frequency of 136.2644 Hz was determined for a cell in a Lithium-ion battery pack. Single-frequency point impedance acquisition solves the problem of lengthy measurements and identification of anomalies throughout the frequency band. The experiment demonstrates a significant reduction in impedance measurement time, from 1.05 h to just 54 s. The LOF was used to identify anomalies in the EIS data at this characteristic frequency. The detection results were consistent with the actual conditions of the battery pack in the laboratory, which verifies the feasibility of this detection method. The LOF algorithm was chosen due to its superior performance in terms of FAR (False Alarm Rate), MAR (Missing Alarm Rate), and its fast anomaly identification time of only 0.1518 ms. The method does not involve complex mathematical models or parameter identification. This helps to achieve efficient anomaly identification and timely warning of single cells in the battery pack.

Published

2024

2. Key Technologies and Application of Electric Scroll Compressors: A Review

Author

Yubo Zhang, Bin Peng, Pengcheng Zhang, Jian Sun, and Zhixiang Liao

Subjects

electric scroll compressor, scroll profile, leakage sealing, vapor injection, CO2 scroll compressor, Technology

Abstract

The electric scroll compressor is driven by a built-in electric motor that rotates the scroll disk. It is known for its simple structure, adjustability, and high efficiency, making it highly promising for various applications. This paper reviews the current application and research status of electric scroll compressors. It covers topics such as the optimal design of scroll compressor profiles, scroll disk leakage sealing, and computer simulation optimization design methods. Additionally, the progress and development trends of vapor-injection scroll compressors (SCVIs) are discussed. This paper also presents the latest research progress on the application of the new refrigerant CO2 in electric scroll compressors, along with its latest applications that align with sustainable development requirements. Finally, this paper concludes with recommendations for the application of electric scroll compressors and suggests future directions for research.

Published

2024

3. A Study on the Effects of Hob Temperature on the Rock-Breaking Characteristics of Sandstone Strata

Author

Yun-Gui Pan, You-Liang Chen, Xi Du, Hui-Dong Tong, Fei-Yu Tang, Xiao-Jian Wu, Su-Ran Wang, Shao-Ming Liao, and Bin Peng

Subjects

PFC3D, tunnel boring machine (TBM), temperature, numerical simulation, confining pressure, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

To explore the effect of hob temperature on the rock-breaking characteristics of full-section tunnel boring machines (TBMs) in sandstone strata, high-temperature furnace heating experiments of sandstone and physical and mechanical experiments at room temperature and high temperatures were conducted to obtain the mechanical properties of sandstone at different temperatures. The mechanical properties at different temperatures were calibrated using PFC3D to obtain micro-mechanical and thermodynamic parameters and establish a rock-breaking model. The orthogonal experiments were used to establish the simulation experiments of rock breaking under different temperatures, confining pressure conditions, knife tip distances, and penetration degrees. The results show that the hob tip force is gradually increasing with an increase in the confining pressure. When below 600 °C, there is little temperature transfer from particle to particle as the temperature increases. At this time, with the two sides of the rock slag flaking, the hob knife tip force is the first to reduce. After 600 °C, with the expansion of the rock extrusion hob, the temperature rises on both sides; at this time, the hob tip force also increased. The hob tip force is minimal at a tip distance of 70 mm and an S/P of 14. As the surrounding pressure increases, the rock-breaking efficiency of the hobber decreases. The highest rock-breaking efficiency is achieved at 25 °C and 600 °C. The rock-breaking efficiency is highest when the knife tip distance is designed to be 70 mm, and when the S/P is 14. The three-dimensional constitutive analysis of rock-breaking particles showed that the increment caused by the hob temperature is mainly distributed in the normal force direction in the surrounding rock without any confining pressure, and the increment caused by the hob temperature exposed to the confining pressure occurs in all directions.

Published

2024

4. A State-Dependent Elasto-Plastic Model for Hydrate-Bearing Cemented Sand Considering Damage and Cementation Effects

Author

Huidong Tong, Youliang Chen, Xi Du, Siyu Chen, Yungui Pan, Suran Wang, Bin Peng, Rafig Azzam, and Tomas Manuel Fernandez-Steeger

Subjects

hydrate-bearing cemented sand, state-dependent, critical state model, elastic-plastic, damage and cementation, 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

In order to optimize the efficiency and safety of gas hydrate extraction, it is essential to develop a credible constitutive model for sands containing hydrates. A model incorporating both cementation and damage was constructed to describe the behavior of hydrate-bearing cemented sand. This model is based on the critical state theory and builds upon previous studies. The damage factor Ds is incorporated to consider soil degradation and the reduction in hydrate cementation, as described by plastic shear strain. A computer program was developed to simulate the mechanisms of cementation and damage evolution, as well as the stress-strain curves of hydrate-bearing cemented sand. The results indicate that the model replicates the mechanical behavior of soil cementation and soil deterioration caused by impairment well. By comparing the theoretical curves with the experimental data, the compliance of the model was calculated to be more than 90 percent. The new state-dependent elasto-plastic constitutive model based on cementation and damage of hydrate-bearing cemented sand could provide vital guidance for the construction of deep-buried tunnels, extraction of hydrocarbon compounds, and development of resources.

Published

2024

5. Experimental Study of Evaporation Characteristics of Acoustically Levitated Fuel Droplets at High Temperatures

Author

Bin Pang, Guangcan Yang, Xiaoxin Liu, Yu Huang, Wanli Li, Yongqing He, Zhongyuan Shi, Zhaochu Yang, and Tao Dong

Subjects

fuel droplet evaporation, high temperature, acoustical levitation, initial diameter, Technology

Abstract

Examining fuel droplet evaporation is crucial for enhancing fuel engine efficiency, conserving energy, and reducing emissions. This study utilizes experimental methods involving ultrasonic standing wave levitation and high-speed cameras to investigate the impact of temperatures and droplet properties, including initial diameter and composition, on the evaporation process. The evaporation behaviors of fuel droplets, like hexadecane and diesel, are documented across a temperature spectrum spanning 150 °C to 550 °C, with an initial droplet equivalent diameter ranging from 0.10 to 0.30 mm. The evaporation rate positively correlates with temperature and may vary by 15% to 71% between hexadecane and diesel droplets.

Published

2024

6. Special Issue 'Construction Materials and Other Related Materials: Basic Theory, Applied Technology and Advanced Research Methods'

Author

Xi Du, Youliang Chen, Rafig Azzam, Tomas Manuel Fernandez-Steeger, and Bin Peng

Subjects

n/a, 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

The rapid advancement of science and technology has facilitated the creation of new technologies and techniques, leading to the convergence and diversification of fields [...]

Published

2023

7. The Usage of CAUSE in Three Branches of Science

Author

Yang, Bei and Chen, Bin

Abstract

Semantic prosody is a concept that has been subject to considerable criticism and debate. One big concern is to what extent semantic prosody is domain or register-related. Previous studies reach the agreement that CAUSE has an overwhelmingly negative meaning in general English. Its semantic prosody remains controversial in academic writing, however, because of the size and register of the corpus used in different studies. In order to minimize the role that corpus choice has to play in determining the research findings, this paper uses sub-corpora from the British National Corpus to investigate the usage of CAUSE in different types of scientific writing. The results show that the occurrence of CAUSE is the highest in social science, less frequent in applied science, and the lowest in natural and pure science. Its semantic prosody is overwhelmingly negative in social science and applied science, and mainly neutral in natural and pure science. It seems that the verb CAUSE lacks its normal negative semantic prosody in contexts that do not refer to human beings. The implications of the findings for language learning are also discussed.

Published

2016

8. A Review of Mineral and Rock Wettability Changes Induced by Reaction: Implications for CO2 Storage in Saline Reservoirs

Author

Ting Chen, Laiming Song, Xueying Zhang, Yawen Yang, Huifang Fan, and Bin Pan

Subjects

wettability, reactions, CO2 storage in saline reservoirs, minerals, rocks, Technology

Abstract

Wettability in CO2-brine-mineral/rock systems is an important parameter influencing CO2 storage capacities and leakage risks in saline reservoirs. However, CO2 tends to react with various minerals and rocks at subsurface conditions, thus causing temporal and spatial wettability changes. Although many relevant research works have been published during past years, a thorough overview of this area is still lacking. Therefore herein, reaction-induced wettability changes are reviewed, and the underlying mechanisms are discussed. Current research gaps are identified, future outlooks are suggested, and some conclusions are drawn. The fundamental understanding of reaction-induced mineral and rock wettability changes during CO2 storage in saline reservoirs is analyzed and the guidance for long-term CO2 containment security evaluations is provided.

Published

2023

9. Assessment of Optimal Operating Range and Case Verification of a Waste Heat Air-Source Heat Pump Water Heater Based on a Semiempirical Parametric Model

Author

Youxin Zhou, Bin Peng, and Bingguo Zhu

Subjects

air-source heat pump water heater (ASHPWH), semiempirical parametric model, optimum operation conditions, coefficient of performance (COP), heat exchanger, waste heat recovery (WHR), Technology

Abstract

Waste heat air-source heat pump water heater (WH-ASHPWH) systems have been widely used to provide water heating in buildings due to their advantages of high efficiency and low environmental impact. It is important to determine reasonable operating conditions for WH-ASHPWH systems to improve their heating efficiency, especially for systems using industrial waste heat. In this study, a semiempirical parametric model of a WH-ASHPWH system was established to simulate heating performance under different working conditions and determine the optimum operating range of the system. A new discrete model for a tube-in-tube condenser was also generated. Taking the equipment of a pharmaceutical factory as an example, the heat exchanger model was first calibrated; then, the global model was used to study the effects of different air-side and condenser-side waste heat conditions on the heating performance of the system. According to the simulation results, the coefficient of performance (COP) reached a maximum value of 4.5 under the optimum working conditions. The deviation between the COP simulation data and experimental values was less than 8.28%, and the simulation time was less than 8 min. These metrics indicate that the model is reasonable and efficient.

Published

2023

10. Low-Quality Integrated Circuits Image Verification Based on Low-Rank Subspace Clustering with High-Frequency Texture Components

Author

Guoliang Tan, Zexiao Liang, Yuan Chi, Qian Li, Bin Peng, Yuan Liu, and Jianzhong Li

Subjects

low-quality data, integrated circuits, high-frequency texture component, subspace clustering, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

With the vigorous development of integrated circuit (IC) manufacturing, the harmfulness of defects and hardware Trojans is also rising. Therefore, chip verification becomes more and more important. At present, the accuracy of most existing chip verification methods depends on high-precision sample data of ICs. Paradoxically, it is more challenging to invent an efficient algorithm for high-precision noiseless data. Thus, we recently proposed a fusion clustering framework based on low-quality chip images named High-Frequency Low-Rank Subspace Clustering (HFLRSC), which can provide the data foundation for the verification task by effectively clustering those noisy and low-resolution partial images of multiple target ICs into the correct categories. The first step of the framework is to extract high-frequency texture components. Subsequently, the extracted texture components will be integrated into subspace learning so that the algorithm can not only learn the low-rank space but also retain high-frequency information with texture characteristics. In comparison with the benchmark and state-of-the-art method, the presented approach can more effectively process simulation low-quality IC images and achieve better performance.

Published

2022

11. A Quantitative Study of Micro and Macro Mechanical Parameters Based on the PFC3D Flat-Joint Model

Author

You-Liang Chen, Yun-Gui Pan, Xi Du, Qi-Jian Chen, Shao-Ming Liao, Ning Zhang, Su-Ran Wang, and Bin Peng

Subjects

PFC3D, rock, flat-joint model, orthogonal experimental design, micro and macro mechanical parameters calibration, flexible boundaries, 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

The flat-joint model, which constructs round particles as polygons, can suppress rotation after breakage between particles and simulate more larger compression and tension ratios than the linear parallel-bond model. The flat-joint contact model was chosen for this study to calibrate the rock for 3D experiments. In the unit experiments, the triaxial unit was loaded with flexible boundaries, and the influence of each microscopic parameter on the significance magnitude of the macroscopic parameters (modulus of elasticity E, Poisson’s ratio ν, uniaxial compressive strength UCS, crack initiation strength σci, internal friction angle φ and uniaxial tensile strength TS) was analysed by ANOVA (Analysis of Variance) in an orthogonal experimental design. Among them, Eƒ, kƒ has a significant effect on E; Cƒ and kƒ have a significant effect on ν; Cƒ, σƒ and kƒ have a significant effect on UCS; Cƒ; σƒ and Eƒ have a significant effect on TS; Rsd has a significant effect on σci; and φf, Eƒ, kƒ, μƒ, and σƒ have a significant effect on φ. Regressions were then carried out to establish the equations for calculating the macroscopic parameters of the rock material so that the three-dimensional microscopic parameters of the PFC can be quantitatively analysed and calculated. The correctness of the establishment of the macroscopic equations was verified by comparing the numerical and damage patterns of uniaxial compression, Brazilian splitting, and triaxial experiments with those of numerical simulation units in the chamber.

Published

2022

12. The Influence of Movable Water on the Gas-Phase Threshold Pressure Gradient in Tight Gas Reservoirs

Author

Weiyao Zhu, Guodong Zou, Yuwei Liu, Wenchao Liu, and Bin Pan

Subjects

tight gas reservoirs, threshold pressure gradient, water saturation, movable water, prediction model, Technology

Abstract

Threshold pressure gradient (TPG) is a key parameter determining the pore-scale fluid dynamics. In tight gas reservoirs, both gas and water exist in the porous rock, and the existing water can be divided into irreducible and movable water. However, how movable water saturation will influence TPG has not yet been investigated. Therefore herein, nuclear magnetic resonance (NMR) and high-pressure mercury intrusion (HPMI) experiments were performed to determine pore-scale water distribution, movable water saturation, and pore throat distribution in the core plugs. Subsequently, the air bubble method was used to measure TPG as a function of movable water saturation and permeability inside tight gas core plugs, finding that TPG increased from 0.01 MPa/m to 0.25 MPa/m with the movable saturation increased from 2% to 35%. Finally, a semi-empirical model was derived to describe the correlation between TPG, movable water saturation, and permeability, which performed better than previous models in the literature. These insights will advance the fundamental understanding of TPG in tight gas reservoirs and provide useful guidance on tight gas reservoirs development.

Published

2022

13. Nondestructive Monitoring Hydration of Belite Calcium Sulfoaluminate Cement by EIS Measurement

Author

Lin Chi, Mian Wang, Zhuolin Wang, Zhenming Li, Bin Peng, and Junjie Li

Subjects

belite calcium sulfoaluminate cement, resistivity, cement hydration, EIS measurement, 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

In this study, the impact of water-to-cement (w/c) ratios of belite calcium sulfoaluminate cement (BCSA) on the hydration kinetics and the electrochemical impedance spectroscopy (EIS) parameters is studied. According to the analysis of classic hydration measurements, such as calorimetry tests, chemical shrinkage content, and chemically bound water content, it can be concluded that a higher w/c ratio clearly accelerates the hydration of BCSA cement paste. The electrical resistivity of BCSA0.35 cement paste is more than 4.5 times that of BCSA0.45 and BCSA0.5, due to the gradually densified micropore structure blocking the electrical signal transmission rather than the free charged-ion content. The porosity of BCSA0.5 is 27.5% higher than that of BCSA0.35 and 7.8% higher than that of BCSA0.45, which proves the resistivity is clearly related to the variation in microstructure, especially for the porosity and pore size distribution. The novelty of this study is the linear regression with logarithm terms of electrical resistivity and classic hydration parameters such as chemical shrinkage, cumulative hydration heat, and chemically bound water is established to extend the classical expression of cement hydration degree. It indicates that the electrochemical impedance spectroscopy can be taken as a nondestructive testing measurement to real-time monitor the cement hydration process of cement-based materials.

Published

2022

14. A comprehensive review on nanocellulose-based membranes: methods, mechanism, and applications in wastewater treatment

Author

Sueraya, Ain Zaienah, Rahman, Md Rezaur, Kanakaraju, Devagi, Said, Khairul Anwar Mohamad, James, Anthonette, Othman, Al-Khalid Bin, Bakri, Muhammad Khusairy Bin, and Uddin, Jamal

Published

2024

15. Identification and Assessment of Professional Competencies for Implementation of Nanotechnology in Engineering Education

Author

Jean, Ming-Der, Jiang, Ji-Bin, and Chien, Jia-Yi

Abstract

The purpose of this study was to construct the indicators of professional competencies of the nanotechnology-based sputtering system industry based on industry requirements and analyse the core competencies of the industry for promoting the human resource of physical vapour deposition technology. The document analysis, expert interview, and Delphi technique surveys were considered and the survey items with 32 items divided into 7 domains were selected according to consensus opinions of 10 experts by the Delphi survey technique. Through three questionnaire surveys' analysis, the professional competence scales for the K-S tests showed a good internal consistency. The findings of this study provide guidelines for professional competence for nanotechnology-based sputtering technology by applying surface heat-treatment industry. These guidelines can also reveal the practical competency requirements of nanotechnology-based sputtering technology to deal with any subsequent challenges, future developments, and invisible services for students in a technology institute programme.

Published

2017

16. Survival and Functional Integration of Human Embryonic Stem Cell–Derived Retinal Organoids After Shipping and Transplantation into Retinal Degeneration Rats

Author

Lin, Bin, Singh, Ratnesh K, Seiler, Magdalene J, and Nasonkin, Igor O

Subjects

Biological Sciences, Bioengineering, Stem Cell Research - Embryonic - Human, Stem Cell Research, Regenerative Medicine, Transplantation, Neurosciences, Eye Disease and Disorders of Vision, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Eye, Animals, Human Embryonic Stem Cells, Retinal Degeneration, Humans, Organoids, Rats, Retina, Cell Differentiation, Stem Cell Transplantation, Cell Survival, Tomography, Optical Coherence, retinal degeneration, cell therapy, retinal organoids, tissue replacement, subretinal transplantation, synaptic integration, Technology, Medical and Health Sciences, Developmental Biology, Immunology, Biological sciences

Abstract

Because derivation of retinal organoids (ROs) and transplantation are frequently split between geographically distant locations, we developed a special shipping device and protocol capable of the organoids' delivery to any location. Human embryonic stem cell (hESC)-derived ROs were differentiated from the hESC line H1 (WA01), shipped overnight to another location, and then transplanted into the subretinal space of blind immunodeficient retinal degeneration (RD) rats. Development of transplants was monitored by spectral-domain optical coherence tomography. Visual function was accessed by optokinetic tests and superior colliculus (SC) electrophysiology. Cryostat sections through transplants were stained with hematoxylin and eosin; or processed for immunohistochemistry to label human donor cells, retinal cell types, and synaptic markers. After transplantation, ROs integrated into the host RD retina, formed functional photoreceptors, and improved vision in rats with advanced RD. The survival and vision improvement are comparable with our previous results of hESC-ROs without a long-distance delivery. Furthermore, for the first time in the stem cell transplantation field, we demonstrated that the response heatmap on the SC showed a similar shape to the location of the transplant in the host retina, which suggested the point-to-point projection of the transplant from the retina to SC. In conclusion, our results showed that using our special device and protocol, the hESC-derived ROs can be shipped over long distance and are capable of survival and visual improvement after transplantation into the RD rats. Our data provide a proof-of-concept for stem cell replacement as a therapy for RD patients.

Published

2024

17. Performance Analysis and Test Research of PEMFC Oil-Free Positive Displacement Compressor for Vehicle

Author

Jian Sun, Bin Peng, and Bingguo Zhu

Subjects

PEMFC, positive displacement compressor, scroll compressor, screw compressor, computational fluid dynamics, test research, Technology

Abstract

In order to study the matching characteristics of the positive displacement air compressor and the PEMFC (proton exchange membrane fuel cells), air supply subsystem, the basic operating performance parameters of the scroll and single-screw air compressors were analyzed with the focus on the oil-free double-wrap scroll compressor. According to the thermodynamic model and three-dimensional unsteady-state numerical simulation, the variation of the temperature, pressure, and velocity was obtained. Besides, under the rated operating condition of the compressor, the inlet and outlet mass flow rate of the fluid in the working chamber with the orbiting angle of the crank was achieved. Based on the built test platform, the actual working process of scroll and screw compressors was analyzed. This study indicates that the volume flow can be significantly increased by improving the speed of the positive displacement compressor. Based on the experimental measurement, when the height of the scroll tooth of the scroll compressor increases by 5 mm, the volume flow of the prototype SC2 increases by 0.17 m3/min and the exhaust temperature is reduced by 13 °C at the rated speed.

Published

2021

18. Corrosion Performance of Nano-TiO2-Modified Concrete under a Dry–Wet Sulfate Environment

Author

Chao Xu, Hao-Hao Liao, You-Liang Chen, Xi Du, Bin Peng, and Tomas Manuel Fernandez-Steeger

Subjects

nano, dry–wet cycle, compressive strength, PFC2D, 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

This study compared the effects of the sulfate dry–wet cycle on the properties of ordinary concrete and nano-TiO2-modified concrete, including the mass loss rate, ultrasonic wave velocity, compressive strength, and XRD characteristics. In addition, a series of compression simulations carried out using the PFC2D software are also presented for comparison. The results show the following: (1) with an increase in dry–wet cycles, the damage to the concrete gradually increased, and adding nano-TiO2 into ordinary concrete can improve the material’s sulfate resistance; (2) after 50 sulfate dry–wet cycles, the mass loss rate of ordinary concrete was –3.744%, while that of nano-TiO2-modified concrete was −1.363%; (3) the compressive strength of ordinary concrete was reduced from 41.53 to 25.12 MPa (a reduction of 39.51%), but the compressive strength of nano-TiO2-modified concrete was reduced from 49.91 to 32.12 MPa (a reduction of 35.64%); (4) after a sulfate dry–wet cycle, the nano-TiO2-modified concrete surface produced white crystalline products, considered to be ettringite based on the XRD analysis; (5) when considering the peak stress and strain of the concrete samples, the numerical results agreed well with the test results, indicating the reliability of the method.

Published

2021

19. Effects of Simulated Nitrogen Deposition on the Bacterial Community of Urban Green Spaces

Author

Lingzi Mo, Augusto Zanella, Xiaohua Chen, Bin Peng, Jiahui Lin, Jiaxuan Su, Xinghao Luo, Guoliang Xu, and Andrea Squartini

Subjects

Nitrogen deposition, bacteria, soil biodiversity, urban, 16S rRNA, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Continuing nitrogen (N) deposition has a wide-ranging impact on terrestrial ecosystems. To test the hypothesis that, under N deposition, bacterial communities could suffer a negative impact, and in a relatively short timeframe, an experiment was carried out for a year in an urban area featuring a cover of Bermuda grass (Cynodon dactylon) and simulating environmental N deposition. NH4NO3 was added as external N source, with four dosages (N0 = 0 kg N ha−2 y−1, N1 = 50 kg N ha−2 y−1, N2 = 100 kg N ha−2 y−1, N3 = 150 kg N ha−2 y−1). We analyzed the bacterial community composition after soil DNA extraction through the pyrosequencing of the 16S rRNA gene amplicons. N deposition resulted in soil bacterial community changes at a clear dosage-dependent rate. Soil bacterial diversity and evenness showed a clear trend of time-dependent decline under repeated N application. Ammonium nitrogen enrichment, either directly or in relation to pH decrease, resulted in the main environmental factor related to the shift of taxa proportions within the urban green space soil bacterial community and qualified as a putative important driver of bacterial diversity abatement. Such an impact on soil life induced by N deposition may pose a serious threat to urban soil ecosystem stability and surrounding areas.

Published

2021

20. Industrialisation of calcined clay cements: past, present, and future: a paper of RILEM TC 282-CCL

Author

Parashar, Anuj, Avet, François, Canut, Mariana, Riding, Kyle A., Wang, Bin, Sui, Tongbo, Vieira, Silvia, Irassar, Edgardo Fabian, Velasquez, Luis, Almenares-Reyes, Roger S., Thienel, Karl-Christian, Maier, Matthias, Kanavaris, Fragkoulis, Zunino, Franco, Escadeillas, Gilles, Haha, Mohsen Ben, Juenger, Maria C. G., Hanein, Theodore, Bishnoi, Shashank, and Martirena-Hernández, Fernando

Published

2024

21. Toward Current Matching in Tandem Dye-Sensitized Solar Cells

Author

Junfeng Wei, Zhipeng Shao, Bin Pan, Shuanghong Chen, Linhua Hu, and Songyuan Dai

Subjects

dye-sensitized solar cells, pn type tandem, circuit model, photocathode, current matching, 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

The tandem pn-type dye-sensitized solar cells (pn-DSCs) have received much attention in the field of photovoltaic technologies because of their great potential to overcome the Shockley-Queisser efficiency limitation that applies to single junction photovoltaic devices. However, factors governing the short-circuit current densities (Jsc) of pn-DSC remain unclear. It is typically believed that Jsc of the pn-DSC is limited to the highest one that the two independent photoelectrodes can achieve. In this paper, however, we found that the available Jsc of pn-DSC is always determined by the larger Jsc that the photoanode can achieve but not by the smaller one in the photocathode. Such experimental findings were verified by a simplified series circuit model, which shows that a breakdown will occur on the photocathode when the photocurrent goes considerably beyond its threshold voltage, thus leading to an abrupt increase in Jsc of the circuit. The simulation results also suggest that a higher photoconversion efficiency of the pn-DSCs can be only achieved when an almost equivalent photocurrent is achieved for the two photoelectrodes.

Published

2020

22. Experimental Investigation on the Performance of Historical Squat Masonry Walls Strengthened by UHPC and Reinforced Polymer Mortar Layers

Author

Bin Peng, Sandong Wei, Libo Long, Qizhen Zheng, Yueqiang Ma, and Leiyu Chen

Subjects

historical masonry wall, ultra-high performance concrete, strengthening, pseudo-static experiment, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Strengthening historical brick masonry walls is important because these walls are major load-bearing members in many architectural heritages. However, historical brick masonry has low elastic modulus and low strength, historical masonry walls are prone to surface treatment or other structural intervention, and some of the walls lack integrity. These characteristics make effective strengthening of historical masonry walls difficult. To address the issue, strengthening layers made up of ultra-high performance concrete (UHPC) are potentially useful. To investigate the strengthening effect of the UHPC layers, the authors constructed three squat walls using historical bricks and mortar collected from the rehabilitation site of a historical building, and strengthened two of the walls with a UHPC layer and a reinforced polymer mortar layer respectively. The three walls were broken down by horizontal cyclic force along with constant vertical compression, and then the unstrengthened one was strengthened in-situ by a UHPC layer and was tested again. The experimental results indicate that the UHPC layers significantly improved the in-plane shear resistance and cracking load of the squat walls, without decreasing the walls’ ultimate deformation. They effectively strengthened both moderately and severely damaged historical masonry walls, because the UHPC filled the existing damages and improved the integrity of the masonry substrate. In addition, the UHPC layers intervened the historical walls less than the reinforced polymer mortar layer. Therefore, the UHPC layers are efficient in strengthening historical squat masonry walls.

Published

2019

23. Fault Diagnosis of Rolling Bearings Based on Improved Fast Spectral Correlation and Optimized Random Forest

Author

Guiji Tang, Bin Pang, Tian Tian, and Chong Zhou

Subjects

improved fast spectral correlation, particle swarm optimization-random forest, rolling element bearings, fault diagnosis, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Fault diagnosis of rolling bearings is important for ensuring the safe operation of industrial machinery. How to effectively extract the fault features and select a classifier with high precision is the key to realizing the fault recognition of bearings. Accordingly, a new fault diagnosis method of rolling bearings based on improved fast spectral correlation and optimized random forest (i.e., particle swarm optimization-random forest (PSO-RF)) is proposed in this paper. The main contributions of this study are made from two aspects. One is that an improved fast spectral correlation approach was developed to extract the fault features of bearings and form the feature vector more effectively. The other is that an optimized random forest classifier was developed to achieve highly accurate identification by exploiting particle swarm optimization to select the best parameters of random forest (RF). In the presented method, improved fast spectral correlation was first utilized to analyze the raw vibration signal caused by a faulty bearing to obtain the enhanced envelope spectrum. Then, the amplitudes of the four characteristic cyclic frequencies (i.e., the rotating frequency, the characteristic frequency of outer-race fault, the characteristic frequency of inner-race fault, and the characteristic frequency of rolling element fault) exhibited in the enhanced envelope spectrum were selected to form the feature vector. Finally, the PSO-RF method was introduced for identifying and classifying bearing faults. The experimental investigations demonstrate the proposed method can accurately identify bearing faults and outperform other state-of-art techniques considered.

Published

2018

24. Two-Dimensional MX2 Semiconductors for Sub-5 nm Junctionless Field Effect Transistors

Author

Bin Peng, Wei Zheng, Jiantao Qin, and Wanli Zhang

Subjects

2-D materials, monolayer transition metal dichalcogenide FETs, junctionless FETs, 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

Two-dimensional transitional metal dichalcogenide (TMDC) field-effect transistors (FETs) are proposed to be promising for devices scaling beyond silicon-based devices. We explore the different effective mass and bandgap of the channel materials and figure out the possible candidates for high-performance devices with the gate length at 5 nm and below by solving the quantum transport equation self-constantly with the Poisson equation. We find that out of the 14 compounds, MoS2, MoSe2, and MoTe2 may be used in the devices to achieve a good subthreshold swing and a reasonable current ON-OFF ratio and delay. Our work points out the direction of further device optimization for experiments.

Published

2018

25. Improvement of High-Temperature Stability of Al2O3/Pt/ZnO/Al2O3 Film Electrode for SAW Devices by Using Al2O3 Barrier Layer

Author

Xingpeng Liu, Bin Peng, Wanli Zhang, Jun Zhu, Xingzhao Liu, and Meng Wei

Subjects

high temperature electrode, SAW sensor, electrical conductivity, langasite, Al2O3 barrier layer, 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

In order to develop film electrodes for the surface acoustic wave (SAW) devices operating in harsh high-temperature environments, novel Al2O3/Pt/ZnO/Al2O3 multilayered film electrodes were prepared by laser molecular beam epitaxy (LMBE) at 150 °C. The first Al2O3 layer was used as a barrier layer to prevent the diffusion of Ga, La, and Si atoms from the La3Ga5SiO14 (LGS) substrate to the film electrode and thus improved the crystalline quality of ZnO and Pt films. It was found that the resistance of the Al2O3/Pt/ZnO/Al2O3 electrode did not vary up to a temperature of 1150 °C, suggesting a high reliability of electrode under harsh high-temperature environments. The mechanism of the stable resistance of the Al2O3/Pt/ZnO/Al2O3 film electrodes at high temperature was investigated by analyzing its microstructure. The proposed Al2O3/Pt/ZnO/Al2O3 film electrode has great potential for application in high-temperature SAW devices.

Published

2017

26. The application of artificial intelligence technology in education influences Chinese adolescent’s emotional perception

Author

Lai, Tinghong, Zeng, Xianqin, Xu, Bin, Xie, Chuyin, Liu, Yanxiu, Wang, Zheng, Lu, Hong, and Fu, Shimin

Published

2024

27. The Microstructural Characterization of Multiferroic LaFeO3-YMnO3 Multilayers Grown on (001)- and (111)-SrTiO3 Substrates by Transmission Electron Microscopy

Author

Bin Pang, Lei Sun, Xuan Shen, Yang-Yang Lv, Xiao Li, Fei-Xiang Wu, Shu-Hua Yao, Jian Zhou, Shan-Tao Zhang, and Y.B. Chen

Subjects

multiferroic, multilayers, transmission electron microscopy, domain structure, 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

The microstructure of multiferroic LaFeO3-YMnO3 (LFO-YMO) multilayers grown on (001)- and (111)-SrTiO3 substrates is characterized by the transmission electron microscopy (TEM). Detailed TEM characterization reveals that LFO-YMO multilayers grown on both substrates have clear layer-by-layer morphology and distinct chemical-composition layered structure. The most notable feature is that LFO-YMO multilayers grown on (001)-SrTiO3 substrate have three types of domains, while those on (111)-SrTiO3 have only one. The multi-/twin- domain structure can be qualitatively explained by the lattice mismatch in this system. The details of the domain structure of LFO-YMO multilayers are crucial to understanding their magnetic properties.

Published

2017

28. Novel AlN/Pt/ZnO Electrode for High Temperature SAW Sensors

Author

Xingpeng Liu, Bin Peng, Wanli Zhang, Jun Zhu, Xingzhao Liu, and Meng Wei

Subjects

high temperature electrode, SAW sensor, electrical resistance, langasite, 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

In order to develop a film electrode for the surface acoustic wave (SAW) devices working in high temperature, harsh environments, novel AlN/Pt/ZnO multilayers were prepared using pulsed laser deposition (PLD) systems on langasite (LGS) substrates. The AlN film was used as a protective layer and the ZnO buffer layer was introduced to improve the crystal quality of Pt films. The results show that the resistances of Pt and AlN/Pt film electrodes violently increase above 600 °C and 800 °C, respectively, while the resistances of AlN/Pt/ZnO electrodes have more stable electrical resistance from room temperature to 1000 °C. The AlN/Pt/ZnO electrode, where the ZnO film was deposited at 600 °C, has the best temperature stability and can steadily work for 4 h at 1000 °C. The mechanism underlying the stable resistance of the AlN/Pt/ZnO electrode at a high temperature was investigated by analyzing the microstructure of the prepared samples. The proposed AlN/Pt/ZnO film electrode has great potential for applications in high temperature SAW sensors.

Published

2017

29. Effects of Sputtering Parameters on AlN Film Growth on Flexible Hastelloy Tapes by Two-Step Deposition Technique

Author

Bin Peng, Dongdong Gong, Wanli Zhang, Jianying Jiang, Lin Shu, and Yahui Zhang

Subjects

aluminum nitride thin films, c-axis orientation, Hastelloy tapes, two-step deposition technique, growth mechanism, 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

AlN thin films were deposited on flexible Hastelloy tapes and Si (100) substrate by middle-frequency magnetron sputtering. A layer of Y2O3 films was used as a buffer layer for the Hastelloy tapes. A two-step deposition technique was used to prepare the AlN films. The effects of deposition parameters such as sputtering power, N2/Ar flow rate and sputtering pressure on the microstructure of the AlN thin films were systematically investigated. The results show that the dependency of the full width at half maximum (FWHM) of AlN/Y2O3/Hastelloy on the sputtering parameters is similar to that of AlN/Si (100). The FWHM of the AlN (002) peak of the prepared AlN films decreases with increasing sputtering power. The FWHM decreases with the increase of the N2/Ar flow rate or sputtering pressure, and increases with the further increase of the N2/Ar flow rate or sputtering pressure. The FWHM of the AlN/Y2O3/Hastelloy prepared under optimized parameters is only 3.7° and its root mean square (RMS) roughness is 5.46 nm. Based on the experimental results, the growth mechanism of AlN thin films prepared by the two-step deposition process was explored. This work would assist us in understanding the AlN film’s growth mechanism of the two-step deposition process, preparing highly c-axis–oriented AlN films on flexible metal tapes and developing flexible surface acoustic wave (SAW) sensors from an application perspective.

Published

2016

30. DaXi—high-resolution, large imaging volume and multi-view single-objective light-sheet microscopy

Author

Yang, Bin, Lange, Merlin, Millett-Sikking, Alfred, Zhao, Xiang, Bragantini, Jordão, VijayKumar, Shruthi, Kamb, Mason, Gómez-Sjöberg, Rafael, Solak, Ahmet Can, Wang, Wanpeng, Kobayashi, Hirofumi, McCarroll, Matthew N, Whitehead, Lachlan W, Fiolka, Reto P, Kornberg, Thomas B, York, Andrew G, and Royer, Loic A

Subjects

Bioengineering, Underpinning research, 1.1 Normal biological development and functioning, Animals, Brain, Drosophila, Embryonic Development, Microscopy, Fluorescence, Zebrafish, Biological Sciences, Technology, Medical and Health Sciences, Developmental Biology

Abstract

The promise of single-objective light-sheet microscopy is to combine the convenience of standard single-objective microscopes with the speed, coverage, resolution and gentleness of light-sheet microscopes. We present DaXi, a single-objective light-sheet microscope design based on oblique plane illumination that achieves: (1) a wider field of view and high-resolution imaging via a custom remote focusing objective; (2) fast volumetric imaging over larger volumes without compromising image quality or necessitating tiled acquisition; (3) fuller image coverage for large samples via multi-view imaging and (4) higher throughput multi-well imaging via remote coverslip placement. Our instrument achieves a resolution of 450 nm laterally and 2 μm axially over an imaging volume of 3,000 × 800 × 300 μm. We demonstrate the speed, field of view, resolution and versatility of our instrument by imaging various systems, including Drosophila egg chamber development, zebrafish whole-brain activity and zebrafish embryonic development - up to nine embryos at a time.

Published

2022

31. Pressure-induced suppression of Jahn–Teller distortions and enhanced electronic properties in high-entropy oxide (Mg0.2Ni0.2Co0.2Zn0.2Cu0.2)O

Author

Yan, Jiejuan, Zhang, Lingkong, Liu, Junxiu, Li, Nana, Tamura, Nobumichi, Chen, Bin, Lin, Yu, Mao, Wendy L, and Zhang, Hengzhong

Subjects

Physical Sciences, Engineering, Technology, Applied Physics

Abstract

Jahn-Teller distortions are often observed in CuII-containing complex oxides resulting in remarkable changes of physical properties. Tuning the Jahn-Teller distortions with pressure has attracted considerable interest but is less studied in CuII-containing high-entropy oxides (HEOs). We found that pressure can suppress the structural distortions originating from the Jahn-Teller effect of CuO6 octahedra in the rock salt-type (Mg0.2Ni0.2Co0.2Zn0.2Cu0.2)O HEO and significantly modify its electronic properties. Synchrotron x-ray diffraction shows that the structural distortions arising from the Jahn-Teller effect of CuO6 octahedra are progressively suppressed, and the distorted structure evolves into a nearly ideal form under compression. Alternating current impedance and ultraviolet-visible absorption measurements reveal a dramatic resistance drop by more than three orders of magnitude and an obvious bandgap decrease in ∼0.1 eV, respectively, accompanied by the pressure-induced suppression of structural distortions. Our study presents a promising route for tuning the structural distortions and the electronic structures of CuII-containing HEOs for optimizing materials functionalities.

Published

2021

32. Light exposure mediates circadian rhythms of rhizosphere microbial communities

Author

Zhao, Kankan, Ma, Bin, Xu, Yan, Stirling, Erinne, and Xu, Jianming

Subjects

Microbiology, Biological Sciences, Sleep Research, Circadian Rhythm, Microbiota, Rhizosphere, Soil, Soil Microbiology, Environmental Sciences, Technology, Biological sciences, Environmental sciences

Abstract

Microbial community circadian rhythms have a broad influence on host health and even though light-induced environmental fluctuations could regulate microbial communities, the contribution of light to the circadian rhythms of rhizosphere microbial communities has received little attention. To address this gap, we monitored diel changes in the microbial communities in rice (Oryza sativa L.) rhizosphere soil under light-dark and constant dark regimes, identifying microbes with circadian rhythms caused by light exposure and microbial circadian clocks, respectively. While rhizosphere microbial communities displayed circadian rhythms under light-dark and constant dark regimes, taxa possessing circadian rhythms under the two conditions were dissimilar. Light exposure concealed microbial circadian clocks as a regulatory driver, leading to fewer ecological niches in light versus dark communities. These findings disentangle regulation mechanisms for circadian rhythms in the rice rhizosphere microbial communities and highlight the role of light-induced regulation of rhizosphere microbial communities.

Published

2021

33. Habitat heterogeneity induced by pyrogenic organic matter in wildfire-perturbed soils mediates bacterial community assembly processes

Author

Zhang, Lujun, Ma, Bin, Tang, Caixian, Yu, Haodan, Lv, Xiaofei, Mazza Rodrigues, Jorge L, Dahlgren, Randy A, and Xu, Jianming

Subjects

Microbiology, Environmental Sciences, Biological Sciences, Ecology, Microbiota, Phylogeny, Soil, Soil Microbiology, Wildfires, Technology, Biological sciences, Environmental sciences

Abstract

Although pyrogenic organic matter (PyOM) generated during wildfires plays a critical role in post-fire ecosystem recovery, the specific mechanisms by which PyOM controls soil microbial community assembly after wildfire perturbation remain largely uncharacterized. Herein we characterized the effect of PyOM on soil bacterial communities at two independent wildfire-perturbed forest sites. We observed that α-diversity of bacterial communities was the highest in wildfire-perturbed soils and that bacterial communities gradually changed along a sequence of unburnt soil → burnt soil → PyOM. The microbial communities reconstructed from unburnt soil and PyOM resembled the real bacterial communities in wildfire-perturbed soils in their α-diversity and community structure. Bacterial specialists in PyOM and soils clustered in phylogenetic coherent lineages with intra-lineage pH-niche conservatism and inter-lineage pH-niche divergence. Our results suggest that PyOM mediates bacterial community assembly in wildfire-perturbed soils by a combination of environmental selection and dispersal of phylogenetic coherent specialists with habitat preference in the heterogeneous microhabitats of burnt soils with distinct PyOM patches.

Published

2021

34. Intracellular symbionts drive sex ratio in the whitefly by facilitating fertilization and provisioning of B vitamins

Author

Wang, Yan-Bin, Ren, Fei-Rong, Yao, Ya-Lin, Sun, Xiang, Walling, Linda L, Li, Na-Na, Bai, Bing, Bao, Xi-Yu, Xu, Xiao-Rui, and Luan, Jun-Bo

Subjects

Nutrition, Animals, Female, Fertilization, Hemiptera, Male, Sex Ratio, Symbiosis, Vitamin B Complex, Environmental Sciences, Biological Sciences, Technology, Microbiology

Abstract

Symbionts can regulate animal reproduction in multiple ways, but the underlying physiological and biochemical mechanisms remain largely unknown. The presence of multiple lineages of maternally inherited, intracellular symbionts (the primary and secondary symbionts) in terrestrial arthropods is widespread in nature. However, the biological, metabolic, and evolutionary role of co-resident secondary symbionts for hosts is poorly understood. The bacterial symbionts Hamiltonella and Arsenophonus have very high prevalence in two globally important pests, the whiteflies Bemisia tabaci and Trialeurodes vaporariorum, respectively. Both symbionts coexist with the primary symbiont Portiera in the same host cell (bacteriocyte) and are maternally transmitted. We found that elimination of both Hamiltonella and Arsenophonous by antibiotic treatment reduced the percentage of female offspring in whiteflies. Microsatellite genotyping and cytogenetic analysis revealed that symbiont deficiency inhibited fertilization in whiteflies, leading to more haploid males with one maternal allele, which is consistent with distorted sex ratio in whiteflies. Quantification of essential amino acids and B vitamins in whiteflies indicated that symbiont deficiency reduced B vitamin levels, and dietary B vitamin supplementation rescued fitness of whiteflies. This study, for the first time, conclusively demonstrates that these two intracellular symbionts affect sex ratios in their whitefly hosts by regulating fertilization and supplying B vitamins. Our results reveal that both symbionts have the convergent function of regulating reproduction in phylogenetically-distant whitefly species. The 100% frequency, the inability of whiteflies to develop normally without their symbiont, and rescue with B vitamins suggests that both symbionts may be better considered co-primary symbionts.

Published

2020

35. Feature-based molecular networking in the GNPS analysis environment.

Author

Nothias, Louis-Félix, Petras, Daniel, Schmid, Robin, Dührkop, Kai, Rainer, Johannes, Sarvepalli, Abinesh, Protsyuk, Ivan, Ernst, Madeleine, Tsugawa, Hiroshi, Fleischauer, Markus, Aicheler, Fabian, Aksenov, Alexander A, Alka, Oliver, Allard, Pierre-Marie, Barsch, Aiko, Cachet, Xavier, Caraballo-Rodriguez, Andres Mauricio, Da Silva, Ricardo R, Dang, Tam, Garg, Neha, Gauglitz, Julia M, Gurevich, Alexey, Isaac, Giorgis, Jarmusch, Alan K, Kameník, Zdeněk, Kang, Kyo Bin, Kessler, Nikolas, Koester, Irina, Korf, Ansgar, Le Gouellec, Audrey, Ludwig, Marcus, Martin H, Christian, McCall, Laura-Isobel, McSayles, Jonathan, Meyer, Sven W, Mohimani, Hosein, Morsy, Mustafa, Moyne, Oriane, Neumann, Steffen, Neuweger, Heiko, Nguyen, Ngoc Hung, Nothias-Esposito, Melissa, Paolini, Julien, Phelan, Vanessa V, Pluskal, Tomáš, Quinn, Robert A, Rogers, Simon, Shrestha, Bindesh, Tripathi, Anupriya, van der Hooft, Justin JJ, Vargas, Fernando, Weldon, Kelly C, Witting, Michael, Yang, Heejung, Zhang, Zheng, Zubeil, Florian, Kohlbacher, Oliver, Böcker, Sebastian, Alexandrov, Theodore, Bandeira, Nuno, Wang, Mingxun, and Dorrestein, Pieter C

Subjects

Biological Products, Computational Biology, Software, Databases, Factual, Mass Spectrometry, Metabolomics, Biological Sciences, Technology, Medical and Health Sciences, Developmental Biology

Abstract

Molecular networking has become a key method to visualize and annotate the chemical space in non-targeted mass spectrometry data. We present feature-based molecular networking (FBMN) as an analysis method in the Global Natural Products Social Molecular Networking (GNPS) infrastructure that builds on chromatographic feature detection and alignment tools. FBMN enables quantitative analysis and resolution of isomers, including from ion mobility spectrometry.

Published

2020

36. A compact, high resolution energy, and emittance diagnostic for electron beams using active plasma lenses

Author

Barber, SK, Bin, JH, Gonsalves, AJ, Isono, F, van Tilborg, J, Steinke, S, Nakamura, K, Zingale, A, Czapla, NA, Schumacher, D, Schroeder, CB, Geddes, CGR, Leemans, WP, and Esarey, E

Subjects

Affordable and Clean Energy, Physical Sciences, Engineering, Technology, Applied Physics

Abstract

High-resolution (sub-%), single-shot energy distribution, and emittance measurements of GeV-class electron beams generated by laser plasma accelerators (LPAs) have been enabled through the use of an active plasma lens combined with relatively short dipole magnets. This setup, with only 60 cm between the LPA source and the final diagnostic screen, was facilitated through the use of a replenishable ∼20-40 nm thick liquid crystal plasma mirror to separate remnant laser radiation from the electron beam without emittance degradation. As LPAs capable of generating GeV-class electron beams at cm-scale distances become increasingly ubiquitous, there is a need to supplement these compact accelerators with equally compact diagnostics.

Published

2020

37. Mountain biodiversity and ecosystem functions: interplay between geology and contemporary environments

Author

Hu, Ang, Wang, Jianjun, Sun, Hang, Niu, Bin, Si, Guicai, Wang, Jian, Yeh, Chih-Fu, Zhu, Xinxin, Lu, Xiancai, Zhou, Jizhong, Yang, Yongping, Ren, Minglei, Hu, Yilun, Dong, Hailiang, and Zhang, Gengxin

Subjects

Life on Land, Bacteria, Biodiversity, China, Climate, Climate Change, Ecosystem, Environmental Microbiology, Geology, Plants, Soil, Temperature, Environmental Sciences, Biological Sciences, Technology, Microbiology

Abstract

Although biodiversity and ecosystem functions are strongly shaped by contemporary environments, such as climate and local biotic and abiotic attributes, relatively little is known about how they depend on long-term geological processes. Here, along a 3000-m elevational gradient with tectonic faults on the Tibetan Plateau (that is, Galongla Mountain in Medog County, China), we study the joint effects of geological and contemporary environments on biological communities, such as the diversity and community composition of plants and soil bacteria, and ecosystem functions. We find that these biological communities and ecosystem functions generally show consistent elevational breakpoints at 2000-2800 m, which coincide with Indus-Yalu suture zone fault and are similar to the elevational breakpoints of soil bacteria on another mountain range 1000 km away. Mean annual temperature, soil pH and moisture are the primary contemporary determinants of biodiversity and ecosystem functions, which support previous findings. However, compared with the models excluding geological processes, inclusion of geological effects, such as parent rock and weathering, increases 67.9 and 35.9% of the explained variations in plant and bacterial communities, respectively. Such inclusion increases 27.6% of the explained variations in ecosystem functions. The geological processes thus provide additional links to ecosystem properties, which are prominent but show divergent effects on biodiversity and ecosystem functions: parent rock and weathering exert considerable direct effects on biodiversity, whereas indirectly influence ecosystem functions via interactions with biodiversity and contemporary environments. Thus, the integration of geological processes with environmental gradients could enhance our understanding of biodiversity and, ultimately, ecosystem functioning across different climatic zones.

Published

2020

38. 3D ATAC-PALM: super-resolution imaging of the accessible genome

Author

Xie, Liangqi, Dong, Peng, Chen, Xingqi, Hsieh, Tsung-Han S, Banala, Sambashiva, De Marzio, Margherita, English, Brian P, Qi, Yifeng, Jung, Seol Kyoung, Kieffer-Kwon, Kyong-Rim, Legant, Wesley R, Hansen, Anders S, Schulmann, Anton, Casellas, Rafael, Zhang, Bin, Betzig, Eric, Lavis, Luke D, Chang, Howard Y, Tjian, Robert, and Liu, Zhe

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Biotechnology, Bioengineering, Chromosome Painting, DNA, Genome, Human, Genomics, High-Throughput Nucleotide Sequencing, Humans, Image Processing, Computer-Assisted, In Situ Hybridization, Fluorescence, Microscopy, Sequence Analysis, DNA, Technology, Medical and Health Sciences, Developmental Biology, Biological sciences

Abstract

To image the accessible genome at nanometer scale in situ, we developed three-dimensional assay for transposase-accessible chromatin-photoactivated localization microscopy (3D ATAC-PALM) that integrates an assay for transposase-accessible chromatin with visualization, PALM super-resolution imaging and lattice light-sheet microscopy. Multiplexed with oligopaint DNA-fluorescence in situ hybridization (FISH), RNA-FISH and protein fluorescence, 3D ATAC-PALM connected microscopy and genomic data, revealing spatially segregated accessible chromatin domains (ACDs) that enclose active chromatin and transcribed genes. Using these methods to analyze genetically perturbed cells, we demonstrated that genome architectural protein CTCF prevents excessive clustering of accessible chromatin and decompacts ACDs. These results highlight 3D ATAC-PALM as a useful tool to probe the structure and organizing mechanism of the genome.

Published

2020

39. Tunable valleytronics with symmetry-retaining high polarization degree in SnSxSe1−x model system

Author

Lin, Shuren, Fang, Zixuan, Hou, Tingzheng, Hsu, Ting Wan, So, Chi H, Yeoh, Cher, Li, Roger, Liu, Yin, Chan, Emory M, Chueh, Yu-Lun, Tang, Bin, Persson, Kristin, and Yao, Jie

Subjects

Atomic, Molecular and Optical Physics, Physical Sciences, Engineering, Technology, Applied Physics, Physical sciences

Abstract

SnS has recently been shown to possess unique valleytronic capability with a large polarization degree, where non-degenerate valleys can be accessed using linearly polarized light, bestowed upon by the unique anisotropy and wavefunction symmetry. It is thus of utmost importance to demonstrate the extension of such effects for the IV-VI system in general, thereby elucidating the generality and tunability of such valleytronics. We show the highly tunable valleytronics via gradual compositional control of the tin(II) sulfo-selenide (SnSxSe1-x) alloy system with excellent retainment of symmetry-determined selection rules. We show the presence of both ΓY and ΓX valleys in all alloy compositions via selectivity in absorption and emission of linearly polarized light by optical reflection (R)/transmission (T) and photoluminescence measurements and tuned the bandgaps of the valleys within a range of 1.28 eV-1.05 eV and 1.48 eV-1.24 eV, respectively. This simultaneous tuning of non-degenerate valleys agrees well with theoretical calculations. We then fitted the bandgap values in compositional space, obtaining bowing parameters as a useful database. We further demonstrated the feasibility of using IV-VI valleytronics systems in general by elucidating the retainment of strong polarization degrees of as high as 91% across all compositions. The generalization of such purely symmetry-dependent valleytronics also opens up opportunities for the discovery of more multi-functional materials.

Published

2020

40. Epi-illumination SPIM for volumetric imaging with high spatial-temporal resolution

Author

Yang, Bin, Chen, Xingye, Wang, Yina, Feng, Siyu, Pessino, Veronica, Stuurman, Nico, Cho, Nathan H, Cheng, Karen W, Lord, Samuel J, Xu, Linfeng, Xie, Dan, Mullins, R Dyche, Leonetti, Manuel D, and Huang, Bo

Subjects

Biological Sciences, Bioengineering, Biotechnology, Animals, Drosophila, HEK293 Cells, Humans, Image Processing, Computer-Assisted, Imaging, Three-Dimensional, Lighting, Microscopy, Fluorescence, Molecular Imaging, Single-Cell Analysis, Spatio-Temporal Analysis, Technology, Medical and Health Sciences, Developmental Biology, Biological sciences

Abstract

We designed an epi-illumination SPIM system that uses a single objective and has a sample interface identical to that of an inverted fluorescence microscope with no additional reflection elements. It achieves subcellular resolution and single-molecule sensitivity, and is compatible with common biological sample holders, including multi-well plates. We demonstrated multicolor fast volumetric imaging, single-molecule localization microscopy, parallel imaging of 16 cell lines and parallel recording of cellular responses to perturbations.

Published

2019

41. Genetic correlation network prediction of forest soil microbial functional organization

Author

Ma, Bin, Zhao, Kankan, Lv, Xiaofei, Su, Weiqin, Dai, Zhongmin, Gilbert, Jack A, Brookes, Philip C, Faust, Karoline, and Xu, Jianming

Subjects

HIV/AIDS, Genetics, Forests, Gene Regulatory Networks, Metagenome, Microbiota, Soil, Soil Microbiology, Environmental Sciences, Biological Sciences, Technology, Microbiology

Abstract

Soil ecological functions are largely determined by the activities of soil microorganisms, which, in turn, are regulated by relevant interactions between genes and their corresponding pathways. Therefore, the genetic network can theoretically elucidate the functional organization that supports complex microbial community functions, although this has not been previously attempted. We generated a genetic correlation network based on 5421 genes derived from metagenomes of forest soils, identifying 7191 positive and 123 negative correlation relationships. This network consisted of 27 clusters enriched with sets of genes within specific functions, represented with corresponding cluster hubs. The clusters revealed a hierarchical architecture, reflecting the functional organization in the soil metagenomes. Positive correlations mapped functional associations, whereas negative correlations often mapped regulatory processes. The potential functions of uncharacterized genes were predicted based on the functions of located clusters. The global genetic correlation network highlights the functional organization in soil metagenomes and provides a resource for predicting gene functions. We anticipate that the genetic correlation network may be exploited to comprehensively decipher soil microbial community functions.

Published

2018

42. Iron-decorated nitrogen-rich carbons as efficient oxygen reduction electrocatalysts for Zn–air batteries

Author

Liu, Zhuang, Liu, Jing, Wu, Hao Bin, Shen, Gurong, Le, Zaiyuan, Chen, Gen, and Lu, Yunfeng

Subjects

Physical Sciences, Chemical Sciences, Technology, Nanoscience & Nanotechnology

Abstract

A low-cost and scalable method has been developed to synthesize Fe-decorated N-rich carbon electrocatalysts for the oxygen reduction reaction (ORR) based on pyrolysis of metal carbonyls containing metal-organic frameworks (MOFs). Such a method simultaneously optimizes the Fe-related active sites and the porous structure of the catalysts. Accordingly, the best-performing Fe-NC-900-M catalyst shows excellent ORR activity with a half-wave potential of 0.91 V vs. RHE, exceeding that of the 40% Pt/C catalyst in alkaline media. Furthermore, the zinc-air batteries constructed with Fe-NC-900-M as the cathode catalyst exhibit high open-circuit voltage (1.5 V) and peak power density (271 mW cm-2), and outperform most zinc-air batteries with noble-metal free ORR catalysts.

Published

2018

43. A tiling-deletion-based genetic screen for cis-regulatory element identification in mammalian cells

Author

Diao, Yarui, Fang, Rongxin, Li, Bin, Meng, Zhipeng, Yu, Juntao, Qiu, Yunjiang, Lin, Kimberly C, Huang, Hui, Liu, Tristin, Marina, Ryan J, Jung, Inkyung, Shen, Yin, Guan, Kun-Liang, and Ren, Bing

Subjects

Biochemistry and Cell Biology, Biological Sciences, Human Genome, Prevention, Genetics, Congenital Structural Anomalies, Pediatric, Algorithms, Cells, Cultured, Chromosome Mapping, Embryonic Stem Cells, Gene Expression Regulation, Genetic Testing, High-Throughput Nucleotide Sequencing, Humans, Regulatory Sequences, Nucleic Acid, Sequence Analysis, DNA, Single-Cell Analysis, Technology, Medical and Health Sciences, Developmental Biology, Biological sciences

Abstract

Millions of cis-regulatory elements are predicted to be present in the human genome, but direct evidence for their biological function is scarce. Here we report a high-throughput method, cis-regulatory element scan by tiling-deletion and sequencing (CREST-seq), for the unbiased discovery and functional assessment of cis-regulatory sequences in the genome. We used it to interrogate the 2-Mb POU5F1 locus in human embryonic stem cells, and identified 45 cis-regulatory elements. A majority of these elements have active chromatin marks, DNase hypersensitivity, and occupancy by multiple transcription factors, which confirms the utility of chromatin signatures in cis-element mapping. Notably, 17 of them are previously annotated promoters of functionally unrelated genes, and like typical enhancers, they form extensive spatial contacts with the POU5F1 promoter. These results point to the commonality of enhancer-like promoters in the human genome.

Published

2017

44. Surface Structure and Electron Transfer Dynamics of the Self-Assembly of Cyanide on Au{111}

Author

Guttentag, Andrew I, Wächter, Tobias, Barr, Kristopher K, Abendroth, John M, Song, Tze-Bin, Sullivan, Nichole F, Yang, Yang, Allara, David L, Zharnikov, Michael, and Weiss, Paul S

Subjects

Chemical Sciences, Engineering, Technology, Physical Chemistry

Abstract

A vibronic resonance between Au{111} surface states and adsorbed CN vibrations has been predicted, which we target for study. We have formed stable monolayers of cyanide on Au{111} and observe a hexagonal close-packed lattice with a nearest neighbor distance of 3.8 ± 0.5 Å. Cyanide orients normal to the surface attached via a Au-C bond. We show that the substrate-molecule coupling is particularly strong, leading to ultrafast electron transfer from the cyanide molecules to the Au{111} substrate as measured by resonant Auger spectroscopy using the core-hole clock method. The CN/Au{111} system is a simple example of a strongly interacting adsorbate-substrate system and will be the subject of a number of further studies, as discussed.

Published

2016

45. How the COVID-19 pandemic will change the future of critical care

Author

Arabi, Yaseen M., Azoulay, Elie, Al-Dorzi, Hasan M., Phua, Jason, Salluh, Jorge, Binnie, Alexandra, Hodgson, Carol, Angus, Derek C., Cecconi, Maurizio, Du, Bin, Fowler, Rob, Gomersall, Charles D., Horby, Peter, Juffermans, Nicole P., Kesecioglu, Jozef, Kleinpell, Ruth M., Machado, Flavia R., Martin, Greg S., Meyfroidt, Geert, Rhodes, Andrew, Rowan, Kathryn, Timsit, Jean-François, Vincent, Jean-Louis, and Citerio, Giuseppe

Published

2021

46. Geographic patterns of co-occurrence network topological features for soil microbiota at continental scale in eastern China

Author

Ma, Bin, Wang, Haizhen, Dsouza, Melissa, Lou, Jun, He, Yan, Dai, Zhongmin, Brookes, Philip C, Xu, Jianming, and Gilbert, Jack A

Subjects

Microbiology, Biological Sciences, Ecology, Archaea, Bacteria, China, Fungi, Geography, Microbial Interactions, Microbiota, Soil, Soil Microbiology, Environmental Sciences, Technology, Biological sciences, Environmental sciences

Abstract

Soil microbiota play a critical role in soil biogeochemical processes and have a profound effect on soil functions. Recent studies have revealed microbial co-occurrence patterns in soil microbial communities, yet the geographic pattern of topological features in soil microbial co-occurrence networks at the continental scale are largely unknown. Here, we investigated the shifts of topological features in co-occurrence networks inferred from soil microbiota along a continental scale in eastern China. Integrating archaeal, bacterial and fungal community datasets, we inferred a meta-community co-occurrence network and analyzed node-level and network-level topological shifts associated with five climatic regions. Both node-level and network-level topological features revealed geographic patterns wherein microorganisms in the northern regions had closer relationships but had a lower interaction influence than those in the southern regions. We further identified topological differences associated with taxonomic groups and demonstrated that co-occurrence patterns were random for archaea and non-random for bacteria and fungi. Given that microbial interactions may contribute to soil functions more than species diversity, this geographic shift of topological features provides new insight into studying microbial biogeographic patterns, their organization and impacts on soil-associated function.

Published

2016

47. High pressure polymorphs and amorphization of upconversion host material NaY(WO4)2

Author

Hong, Fang, Yue, Binbin, Cheng, Zhenxiang, Kunz, Martin, Chen, Bin, and Mao, Ho-Kwang

Subjects

Physical Sciences, Engineering, Technology, Applied Physics

Abstract

The pressure effect on the structural change of upconversion host material NaY(WO4)2 was studied by using in-situ synchrotron X-ray diffraction. A transition from the initial scheelite phase to the M-fergusonite phase occurs near 10 GPa, and another phase transition is found near 27.5 GPa, which could be an isostructural transition without symmetry change. The sample becomes amorphous when the pressure is fully released from high pressure. This work demonstrates the possibility of synthesizing various polymorph structures for non-linear optical applications with a high pressure, chemical doping, or strained thin-film nanostructure process.

Published

2016

48. Nanocrystals in compression: unexpected structural phase transition and amorphization due to surface impurities

Author

Liu, Gang, Kong, Lingping, Yan, Jinyuan, Liu, Zhenxian, Zhang, Hengzhong, Lei, Pei, Xu, Tao, Mao, Ho-kwang, and Chen, Bin

Subjects

Engineering, Chemical Sciences, Physical Chemistry, Physical Sciences, Technology, Nanoscience & Nanotechnology, Chemical sciences, Physical sciences

Abstract

We report an unprecedented surface doping-driven anomaly in the compression behaviors of nanocrystals demonstrating that the change of surface chemistry can lead to an interior bulk structure change in nanoparticles. In the synchrotron-based X-ray diffraction experiments, titania nanocrystals with low concentration yttrium dopants at the surface are found to be less compressible than undoped titania nanocrystals. More surprisingly, an unexpected TiO2(ii) phase (α-PbO2 type) is induced and obvious anisotropy is observed in the compression of yttrium-doped TiO2, in sharp contrast to the compression behavior of undoped TiO2. In addition, the undoped brookite nanocrystals remain with the same structure up to 30 GPa, whereas the yttrium-doped brookite amorphizes above 20 GPa. The abnormal structural evolution observed in yttrium-doped TiO2 does not agree with the reported phase stability of nano titania polymorphs, thus suggesting that the physical properties of the interior of nanocrystals can be controlled by the surface, providing an unconventional and new degree of freedom in search for nanocrystals with novel tunable properties that can trigger applications in multiple areas of industry and provoke more related basic science research.

Published

2016

49. Genetic Tagging During Human Mesoderm Differentiation Reveals Tripotent Lateral Plate Mesodermal Progenitors

Author

Chin, Chee Jia, Cooper, Aaron R, Lill, Georgia R, Evseenko, Denis, Zhu, Yuhua, Bin He, Chong, Casero, David, Pellegrini, Matteo, Kohn, Donald B, and Crooks, Gay M

Subjects

Medical Biotechnology, Biomedical and Clinical Sciences, Stem Cell Research - Nonembryonic - Non-Human, Genetics, Stem Cell Research, Stem Cell Research - Nonembryonic - Human, Regenerative Medicine, Underpinning research, 1.1 Normal biological development and functioning, Animals, Antigens, CD, Cell Differentiation, Cell Line, Cell Lineage, Cell Separation, Clone Cells, Flow Cytometry, Genetic Techniques, Humans, Lentivirus, Mesoderm, Mice, Multipotent Stem Cells, Pluripotent stem cells, Vector integration site analysis, Lineage tracing, Clonal tracking, Lentiviral vectors, Hematopoiesis, Biological Sciences, Technology, Medical and Health Sciences, Immunology, Biological sciences, Biomedical and clinical sciences

Abstract

Although clonal studies of lineage potential have been extensively applied to organ specific stem and progenitor cells, much less is known about the clonal origins of lineages formed from the germ layers in early embryogenesis. We applied lentiviral tagging followed by vector integration site analysis (VISA) with high-throughput sequencing to investigate the ontogeny of the hematopoietic, endothelial and mesenchymal lineages as they emerge from human embryonic mesoderm. In contrast to studies that have used VISA to track differentiation of self-renewing stem cell clones that amplify significantly over time, we focused on a population of progenitor clones with limited self-renewal capability. Our analyses uncovered the critical influence of sampling on the interpretation of lentiviral tag sharing, particularly among complex populations with minimal clonal duplication. By applying a quantitative framework to estimate the degree of undersampling we revealed the existence of tripotent mesodermal progenitors derived from pluripotent stem cells, and the subsequent bifurcation of their differentiation into bipotent endothelial/hematopoietic or endothelial/mesenchymal progenitors. Stem Cells 2016;34:1239-1250.

Published

2016

50. Patented technologies for schistosomiasis control and prevention filed by Chinese applicants

Author

Xiong, Yan-Hong, Xu, Xue-Nian, and Zheng, Bin

Published

2021