Search

Your search keyword '"Yaozheng Wang"' showing total 17 results
Start Over Author "Yaozheng Wang"
17 results on '"Yaozheng Wang"'

1. Insights into the Capture of CO2 by Nickel Hydride Complexes

Author

Min Zhang, Xiaoqing Liang, Yaozheng Wang, Hongyu Yang, and Guangchao Liang

Subjects
nickel hydride, CO2 insertion, catalyst design, DFT, Chemical technology, TP1-1185, Chemistry, QD1-999
Abstract

As a desired feedstock for sustainable energy source and for chemical synthesis, the capture and utilization of CO2 have attracted chemists’ continuous efforts. The homogeneous CO2 insertion into a nickel hydride complex to generate formate provides insight into the role of hydrogen as an active hydride form in the hydrogenation of CO2, which serves as a practicable approach for CO2 utilization. To parameterize the activities and to model the structure–activity relationship in the CO2 insertion into nickel hydride, the comprehensive mechanism of CO2 insertion into a series of square planar transition metal hydride (TM–H, TM = Ni, Pd, and Co) complexes was investigated using density functional theory (DFT) computations. The stepwise pathway with the TM-(H)-formate intermediate for the CO2 insertion into all seven square planar transition metal hydride (TM–H) complexes was observed. The overall rate-determining step (RDS) was the nucleophilic attraction of the terminal O atom on the Ni center in Ni-(H)-formate to form Ni-(O)-(exo)formate. The charge of the Ni atom in the axially vacant [Ni]+ complex was demonstrated as the dominant factor in CO2 insertion, which had an excellent linear correction (R2 = 0.967) with the Gibbs barrier (ΔG‡) of the RDS. The parameterized activities and modeled structure–activity relationship provided here light the way to the design of a more efficient Ni–H complex in the capture and utilization of CO2.

Published
2022
Full Text
View/download PDF

3. Influence of Deck Butt Weld Seams on Fatigue Life of Steel Bridge Decks Pavement: Parameter Optimization.

Author

Xiujie Jiang, Wei Huang, Sang Luo, Weiyi Kong, Kaijun Du, and Yaozheng Wang

Abstract

The butt weld at the connection between orthotropic steel bridge decks (OSBDs) can potentially pose a hazard to the fatigue endurance of the steel bridge deck pavement. This study aims to optimize the parameters of the butt weld seam using finite element (FE) analysis. The optimized parameters will provide valuable guidance for the design of pavements with a focus on antifatigue properties. Initially, the dynamic modulus of the epoxy asphalt mixture (EAM) was determined through laboratory experimentation at various frequencies and temperatures. These material parameters were then used to compute the pavement's fatigue life. Additionally, a well-established FE model was employed to analyze the deformation and fatigue life of the pavement structure. The validity of the model was verified by the theoretical calculation results. Various factors were considered, including vehicle velocities, pavement temperatures, and weld seam misalignments as well as weld seam dimensions such as height and width. The analysis was conducted using a three-dimensional steel bridge model. The results showed that decreasing pavement temperature, weld seam height, and misalignment led to an increase in pavement fatigue life. Conversely, reducing the weld seam width resulted in a decrease in fatigue life. Furthermore, the study investigated the coupling effect of different weld seam heights and widths on the fatigue life of the pavement. Contour figures were used to establish the parameter relationship formula for weld seam height and width. These findings are significant for pavement and deck designers because they enhance the understanding of the sensitivity of weld seams as design variables affecting the fatigue characteristics of pavement structures. Moreover, special attention should be given to the impact of welding parameters on the fatigue design of steel bridge deck pavement under high-temperature conditions of pavement structures. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

5. A time sequential microfluid sensor with Tesla valve channels

Author

Pengcheng Zhao, Haobin Wang, Yaozheng Wang, Wei Zhao, Mengdi Han, and Haixia Zhang

Subjects
General Materials Science, Electrical and Electronic Engineering, Condensed Matter Physics, Atomic and Molecular Physics, and Optics
Published
2023

6. Risk Factors of Pelvic Floor Dysfunction in Postpartum Period: a Cross-Section Study

Author

Xinyu Jing, Jie Gong, Biru Yang, Yaozheng Wang, and Minjia Wang

Abstract

Introduction: Pelvic floor dysfunction (PFD) is most commonly dysfunctions in women, it has been reported to affect 23% to 49% of women according to an epidemiological report. PFDs have many consequences, such as pain, embarrassment, social isolation, and a decreased quality of life (QOL). Thus, this study aims to understand which factors are associated with the development of postpartum pelvic floor dysfunction and determine the degree of such dysfunctions to provide theoretical and data support for clinical diagnosis and treatment of this disorder. Method: Puerperal women were recruited between September to November of 2021 by an online survey platform called WenjuanXing. And the demographic characteristics and PFDs related questionnaire were be collected and analyzed. Multivariate logistic regression analyses were conducted to identify the risk factors of postpartum PFDs in postpartum women. Result: A total of 1226 participants were included, the incidence of urinary incontinence (UI), pelvic organ prolapse (POP) and anal incontinence (AI) was 79.6%, 70.7% and 67.4%, respectively. Multivariate logistic regression analyses shown that body mass index (BMI) more than 28 (OR: 2.591, 95% CI: 1.016-6.607), gestational diabetes (OR: 1.541, 95% CI: 1.011-2.348, P=0.044), prenatal incontinence (OR: 2.63, 95% CI: 0.405-0.982), vaginal delivery (OR: 1.521, 95% CI: 0.35-0.774), episiotomy (OR: 1.595, 95% CI: 1.093-2.326) were the risk factors of postpartum UI. BMI more than 28 (OR: 2.337, 95% CI: 1.086-5.029), smoking in pregnancy (OR: 1.434, 95% CI: 0.241-0.78), vaginal delivery (OR: 1.663, 95% CI: 0.473-0.93) were the risk factors of the POP, however, BMI less than 18.5(OR: 546, 95% CI: 0.337-0.885) was considered as a protective factor for POP in statistical methods. BMI less than 18.5 (OR: 0.555, 95% CI: 0.344-0.895) was only the protective factor of Colorectal-Anal Distress Inventory (CRADI). Conclusion: According to our data, we conclude that the BMI >28, gestational diabetes, prenatal incontinence, vaginal delivery, and episiotomy are risk factors for postpartum UI. In addition to the above risk factors, smoking has also been found to be a risk factor for POP. However, we found no risk factors for AI. Additionally, we found that BMI

Published
2023

9. Micro-Patterned Electret Power Generator for Simultaneous Oscillation and Rotatory Detection in Railways

Author

Zhe Zhao, Jin Wu, Weizheng Yuan, Honglong Chang, Jiaqian Ding, Yaozheng Wang, and Kai Tao

Subjects
Generator (circuit theory), Materials science, Oscillation, Acoustics, Rotational speed, Electret, Rotation, Capacitance, Power (physics), Voltage
Abstract

This paper presents a novel micro electret power generator as self-powered railway sensor for both horizontal oscillation detection and rotation speed monitoring. Both the electret material and counter electrode are micro-patterned with square-shaped blocks and connected diagonally. By this way, capacitance variation can be maximized in either horizontal oscillation or axial rotation. From the experiment results, they show obvious differences between the waveforms from two types of motions. Therefore, both the rotation of the iron wheel and the change of the track in railway can be precisely detected and distinguished. The experimental results show that the peak value of the output voltage can reach 121.94 V when the rotation speed is 600 rpm in the rotating mode and 132.96 V in the sliding mode. The self-powered sensing system can not only achieve stable and continuous output signals, but also adapt to the multi-directional working environment. The outcomes of this work offer new insights of realizing single structured electret power generator for multifunctional applications.

Published
2021

10. Intelligent Thrust Bearing Based on Electret Rotary Power Generator with Self-Powering and Self-Sensing Capabilities

Author

Kai Tao, Tengfei Sun, Honglong Chang, Yaozheng Wang, Weizheng Yuan, Hao Huang, Jin Wu, and Zhe Zhao

Subjects
Ball bearing, Bearing (mechanical), business.industry, Rotor (electric), Computer science, Electrical engineering, Thrust, law.invention, Power (physics), Generator (circuit theory), Thrust bearing, law, Electret, business
Abstract

With the rapid development of the Internet of Things (IoT) and big-data technology, the higher requirement for the intelligence of bearings has been put forward. This paper reports a novel type of intelligent thrust ball bearing, called electret thrust ball bearing (ETBB), which has both self-powering and self-sensing capabilities. Due to the common characteristics of non-contact and relative rotational movement, the electret rotary power generator on the free-standing mode is embedded into the thrust ball bearing, which not only maintains the mechanical structural integrity of the thrust ball bearing, but also obtains the capabilities of self-powering and self-sensing. A localized selective corona charging method is developed for integrating both positive and negative charged electret into the rotor of the ETBB to improve output performance and the output power of the ETBB by bipolar charging is increased by 365% to 0.35mW. Through measuring the electrical output characteristics of the ETBB at different rotating speeds, it is found that the rotating speed of the ETBB can be characterized by the two values of output current and frequency, which has extremely high sensitivity and stability. This work proposes an electrostatic intelligent bearing with self-powering and self-sensing, which has widespread application prospects in the development of IoT and Intelligent machinery.

Published
2021

11. KylinX

Author

Kai Yu, Chengfei Zhang, Guangtao Xue, Yaozheng Wang, Jon Crowcroft, and Yiming Zhang

Subjects
Unix, General Computer Science, Computer science, business.industry, 020206 networking & telecommunications, Hypervisor, Cloud computing, 02 engineering and technology, computer.software_genre, Virtualization, Virtual machine, 020204 information systems, Fork (system call), 0202 electrical engineering, electronic engineering, information engineering, Memory footprint, Operating system, Unikernel, business, computer
Abstract

Unikernel specializes a minimalistic LibOS and a target application into a standalone single-purpose virtual machine (VM) running on a hypervisor, which is referred to as (virtual) appliance . Compared to traditional VMs, Unikernel appliances have smaller memory footprint and lower overhead while guaranteeing the same level of isolation. On the downside, Unikernel strips off the process abstraction from its monolithic appliance and thus sacrifices flexibility, efficiency, and applicability. In this article, we examine whether there is a balance embracing the best of both Unikernel appliances (strong isolation) and processes (high flexibility/efficiency). We present KylinX, a dynamic library operating system for simplified and efficient cloud virtualization by providing the pVM (process-like VM) abstraction. A pVM takes the hypervisor as an OS and the Unikernel appliance as a process allowing both page-level and library-level dynamic mapping. At the page level, KylinX supports pVM fork plus a set of API for inter-pVM communication (IpC, which is compatible with conventional UNIX IPC). At the library level, KylinX supports shared libraries to be linked to a Unikernel appliance at runtime. KylinX enforces mapping restrictions against potential threats. We implement a prototype of KylinX by modifying MiniOS and Xen tools. Extensive experimental results show that KylinX achieves similar performance both in micro benchmarks (fork, IpC, library update, etc.) and in applications (Redis, web server, and DNS server) compared to conventional processes, while retaining the strong isolation benefit of VMs/Unikernels.

Published
2019

12. Autism Classification Based On Logistic Regression Model

Author

Yaozheng Wang, Yuanrui Zheng, and Tingyan Deng

Subjects
Feature engineering, 030506 rehabilitation, Computer science, business.industry, 05 social sciences, Affect (psychology), Logistic regression, medicine.disease, Machine learning, computer.software_genre, Data modeling, 03 medical and health sciences, Data visualization, Feature (machine learning), medicine, Autism, 0501 psychology and cognitive sciences, Artificial intelligence, 0305 other medical science, F1 score, business, computer, 050104 developmental & child psychology
Abstract

Autistic Spectrum Disorder (ASD) is a developmental disability can affect communication and behavior. Existing research has shown that early diagnosis can help doctors to find this disease early and can save significant healthcare costs. With the rapid growth of ASD cases, a ASD related dataset created for scientists and doctors to investigate this disease. Autistic Spectrum Disorder Screening Data for Adult is a well-known dataset, which contains 20 features to be utilized for further analysis. This article developed and test an Autism classification algorithm which based on logistic regression model. The result of this study provided a model can predict the ADS in an average F1 score of 0.97, which displays the superiority of proposed model. Besides, the data visualization part displays several feature distribution images for people to better understand the data and related feature engineering.

Published
2021

13. Multi-Phase Bipolar Rotary Electret Power Generator with DC Output Current

Author

Kai Tao, Yunjia Li, Qinxiao Dong, Honglong Chang, Zhe Zhao, Weizheng Yuan, Lihua Tang, Tengfei Sun, and Yaozheng Wang

Subjects
Materials science, Electromagnetics, business.industry, 020209 energy, Electrical engineering, 02 engineering and technology, 021001 nanoscience & nanotechnology, Power (physics), Generator (circuit theory), Electricity generation, 0202 electrical engineering, electronic engineering, information engineering, Constant current, Electret, 0210 nano-technology, business, Crest factor, Voltage
Abstract

Inspired by an electromagnetic hydropower station that contains reverse polarized magnets, this paper reports a multi-phase bipolar rotary electret power generator (MB-RPH) with a DC output current. It is capable of generating an almost constant current output with a low crest factor by phase coupling caused by multi-phase structure and integrating both positive and negative charged electret into monolayer rotary power generators by bipolar charging to improve output performance. Experiments show that the output power of each phase is increased to about 367% by bipolar charging ' the output performance significantly increases as the phase increase and the crest factor of current substantially decreases as the phases increase. The MB-RPG with three-phase produces an output voltage of 163.5 V, output current 4.3 µA at 600 rpm and an average output power of 1.05 mW. The MB-RPG not only has high-performance output but also realizes an almost constant DC output, which is of considerable significance to the practical application of sensor energy supply.

Published
2021

14. KylinX: Simplified Virtualization Architecture for Specialized Virtual Appliances with Strong Isolation.

Author

YIMING ZHANG, CHENGFEI ZHANG, YAOZHENG WANG, KAI YU, GUANGTAO XUE, and CROWCROFT, JON

Subjects
LIBRARY cooperation, INTERNET servers, FOOTPRINTS
Abstract

Unikernel specializes a minimalistic LibOS and a target application into a standalone single-purpose virtual machine (VM) running on a hypervisor, which is referred to as (virtual) appliance. Compared to traditional VMs, Unikernel appliances have smaller memory footprint and lower overhead while guaranteeing the same level of isolation. On the downside, Unikernel strips off the process abstraction from its monolithic appliance and thus sacrifices flexibility, efficiency, and applicability. In this article, we examine whether there is a balance embracing the best of both Unikernel appliances (strong isolation) and processes (high flexibility/efficiency). We present KylinX, a dynamic library operating system for simplified and efficient cloud virtualization by providing the pVM (process-like VM) abstraction. A pVM takes the hypervisor as an OS and the Unikernel appliance as a process allowing both page-level and library-level dynamic mapping. At the page level, KylinX supports pVM fork plus a set of API for inter-pVM communication (IpC, which is compatible with conventional UNIX IPC). At the library level, KylinX supports shared libraries to be linked to a Unikernel appliance at runtime. KylinX enforces mapping restrictions against potential threats. We implement a prototype of KylinX by modifying MiniOS and Xen tools. Extensive experimental results show that KylinX achieves similar performance both in micro benchmarks (fork, IpC, library update, etc.) and in applications (Redis, web server, and DNS server) compared to conventional processes, while retaining the strong isolation benefit of VMs/Unikernels. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

15. The Characteristics of Muscle Tone and Stiffness in Young Adults with Chronic Low Back Pain

Author

Guohan Wang, Yaozheng Wang, Peijie Liu, Bin Yang, Jie Jing, and Minjia Wang

Subjects
Muscle tone, medicine.medical_specialty, medicine.anatomical_structure, Physical medicine and rehabilitation, business.industry, medicine, Stiffness, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, medicine.symptom, Young adult, business, Chronic low back pain
Published
2019

16. Three-dimensional micro strain gauges as flexible, modular tactile sensors for versatile integration with micro-and macroelectronics.

Author

Chen Xu, Yiran Wang, Jingyan Zhang, Ji Wan, Zehua Xiang, Zhongyi Nie, Jie Xu, Xiang Lin, Pengcheng Zhao, Yaozheng Wang, Shaotong Zhang, Jing Zhang, Chunxiu Liu, Ning Xue, Wei Zhao, and Mengdi Han

Subjects
*TACTILE sensors, *STRAIN sensors, *STRAIN gages, *FLEXIBLE printed circuits, *ELECTRONIC systems, *ALLOYS, *SHEARING force
Abstract

Flexible tactile sensors play important roles in many areas, like human-machine interface, robotic manipulation, and biomedicine. However, their flexible form factor poses challenges in their integration with wafer-based devices, commercial chips, or circuit boards. Here, we introduce manufacturing approaches, device designs, integration strategies, and biomedical applications of a set of flexible, modular tactile sensors, which overcome the above challenges and achieve cooperation with commercial electronics. The sensors exploit lithographically defined thin wires of metal or alloy as the sensing elements. Arranging these elements across three-dimensional space enables accurate, hysteresis-free, and decoupled measurements of temperature, normal force, and shear force. Assembly of such sensors on flexible printed circuit boards together with commercial electronics forms various flexible electronic systems with capabilities in wireless measurements at the skin interface, continuous monitoring of biomechanical signals, and spatial mapping of tactile information. The flexible, modular tactile sensors expand the portfolio of functional components in both microelectronics and macroelectronics. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

17. Millimeter-scale magnetic implants paired with a fully integrated wearable device for wireless biophysical and biochemical sensing.

Author

Ji Wan, Zhongyi Nie, Jie Xu, Zixuan Zhang, Shenglian Yao, Zehua Xiang, Xiang Lin, Yuxing Lu, Chen Xu, Pengcheng Zhao, Yiran Wang, Jingyan Zhang, Yaozheng Wang, Shaotong Zhang, Jinzhuo Wang, Weitao Man, Min Zhang, and Mengdi Han

Subjects
*CEREBROSPINAL fluid, *MOTION capture (Human mechanics), *INTRACRANIAL pressure, *LIVING conditions, *VISCOSITY, *TRANSCRANIAL magnetic stimulation, *BIOCOMPATIBILITY
Abstract

Implantable sensors can directly interface with various organs for precise evaluation of health status. However, extracting signals from such sensors mainly requires transcutaneous wires, integrated circuit chips, or cumbersome readout equipment, which increases the risks of infection, reduces biocompatibility, or limits portability. Here, we develop a set of millimeter-scale, chip-less, and battery-less magnetic implants paired with a fully integrated wearable device for measuring biophysical and biochemical signals. The wearable device can induce a large amplitude damped vibration of the magnetic implants and capture their subsequent motions wirelessly. These motions reflect the biophysical conditions surrounding the implants and the concentration of a specific biochemical depending on the surface modification. Experiments in rat models demonstrate the capabilities of measuring cerebrospinal fluid (CSF) viscosity, intracranial pressure, and CSF glucose levels. This miniaturized system opens the possibility for continuous, wireless monitoring of a wide range of biophysical and biochemical conditions within the living organism. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results