A5026795319- Innovative Energy Harvesting Technologies
- Magnetic Bearings and Levitation Dynamics
- Electric Motor Design and Analysis
- Nanomaterials and Printing Technologies
- Magnetic Properties and Applications
- Wireless Power Transfer Systems
- Nanofabrication and Lithography Techniques
- Energy Harvesting in Wireless Networks
- Vibration Control and Rheological Fluids
- Advanced Sensor and Energy Harvesting Materials
- Surface Modification and Superhydrophobicity
- Allergic Rhinitis and Sensitization
- Asthma and respiratory diseases
- Vibration and Dynamic Analysis
- Sinusitis and nasal conditions
- EFL/ESL Teaching and Learning
- Electrospun Nanofibers in Biomedical Applications
- Respiratory and Cough-Related Research
- Plant Pathogens and Fungal Diseases
- Electromagnetic Launch and Propulsion Technology
- Social Robot Interaction and HRI
- Magnetic Field Sensors Techniques
- Fluid Dynamics and Thin Films
- RNA modifications and cancer
- Plant-derived Lignans Synthesis and Bioactivity
Shenyang University of Technology
2015-2025
Qinghai University
2025
Yuhuangding Hospital
2023-2024
Qingdao University
2023-2024
Binzhou Medical University
2023-2024
Guizhou Academy of Agricultural Sciences
2024
Binzhou University
2023-2024
Tea Research Institute
2024
Hebei University
2024
China University of Geosciences (Beijing)
2010-2024
To identify genomic regions subject to positive selection that might contain genes involved in high-altitude adaptation (HAA), we performed a genome-wide scan by whole-genome sequencing of Tibetan highlanders and Han lowlanders. We revealed collection candidate located 30 loci under selection. Among them, MCUR1 at 6p23 was novel pronounced candidate. By single-cell RNA comprehensive functional studies, demonstrated depletion leads impairment erythropoiesis hypoxia normoxia. Mechanistically,...
With the development of electronic devices toward thinner, lighter, and more flexible, preparation transparent electrodes for device assembly has garnered significant attention. Traditional indium tin oxides are brittle difficult to adapt deformations such as bending stretching flexible substrates. Flexible based on two-dimensional microstructures have become viable alternatives; however, current electrode fabrication methods complex, typically requiring involvement multiple machining...
The basic phenomena of a cantilever energy harvesting device based on iron-gallium alloy magnetostrictive material for low frequency were systematically studied. results highlighted how the physical parameters, geometric structure and bias conditions affected vibration capacity through thorough experimental aimed at enhancing an optimal design. How performance is by configuration multi-layers composite beam, dimensions elastic layer, arrangement position number magnets, matching load...
Microscale device surface encapsulation needs to use ultrafine liquid transfer technology. This technology can a from donor receptor in controlled manner. However, the requirement of microscale for amounts is generally at pL level. Controlling volume, ensuring consistency, and droplet position accuracy became more difficult this In light existing pipetting needle ultramicro considering slow stretching bridge maintain constant ratio, we conducted in-depth research on parameter configuration...
At present, the most convenient and effective method for ensuring air pressure inside automobile tires being kept in normal state is using a tire monitoring system to monitor tire’s interior temperature real time. Aiming at power supply problem of direct industry commonly, new giant magnetostrictive vibration-power generation technology which generates electricity through collecting vibration energy proposed. Based on coupling effect inverse Faraday electromagnetic effect, device prototype...
Vibration energy harvesting attempts to generate electricity through recycling the discarded vibration that is usually lost or dissipated, and represents an alternative traditional batteries may even lead reliable self-powered autonomous electronic devices. Energy based on magnetostrictive materials, which takes advantage of coupling characteristics Villari effect Faraday electromagnetic induction effect, a recent research field great interest. Aiming develop new type harvester using Fe-Ga...
Abstract Rotational machinery is a common presence in dust still production, and the occurrence of operational failures components like engines turbine blades necessitates effective measures. To solve this challenge, remote structural health monitoring using energy harvesting wireless sensors has been widely employed to realize self-powered sensing. This study proposes magnet-induced bi-stable rotational harvester (REH), which utilizes centrifugal effect broaden frequency bandwidth, enabling...
Abstract Conventional energy harvesters often require high ambient vibration frequencies and can only capture in a single direction. To address these issues, this paper designs magnetostrictive two-dimensional kinetic harvester placed under the floor capable of capturing both vertical horizontal directions. In order to achieve higher electrical power output at low-frequency input forces, two-stage force amplification mechanism is designed amplify walking pedestrians main parameters structure...
The practice of harvesting vibration energy from machine tools, windmill blades, etc., and converting it into electric to power low-power electronic circuits has attracted wide attention experts scholars. Abundant vibrations that exist in the moving vehicle can be harvested sensors tire pressure monitoring. In this paper, for first time, a device is proposed harvest rotational with iron-gallium alloy (magnetostrictive material) as core material. Such utilizes coupling characteristics...
Abstract With the development of vibration energy harvesting, sensor nodes for wireless monitoring are being increasingly powered by harvesting vibrations in rotating environments such as car tires and fan blades. Considering diverse installation positions harvesters on carriers, centrifugal forces cantilever beams exhibit remarkable differences during rotation. Crucial factors performance include deformation harvester beam, which is affected force, influence pre-magnetization field Villari...
Vibration energy harvesting is a new alternative to lithium battery power for low-power devices, attempting recover wasted or lost vibration generate electricity. Magnetostrictive-based exploits the coupling properties of Villari and Faraday electromagnetic induction effects achieve mechanical–magnetic–electric conversion. In order better apply actual environment, such as buses, improve ability capture low-frequency energy, double-stage rhombus device, based on Terfenol-D rods, was...
A magnetostrictive vibration energy harvester based on an iron–gallium alloy composite cantilever beam is developed, and its capability optimized from the aspects of bias magnetic field number active layers. To solve issue low irregular output voltage, it designs a converter suitable for low-power to make full use generated electric energy. set AC–DC converters with two working modes designed by using multiple voltage rectification method, which able directly drive power load or store supply...
This study is aimed at addressing the urgent demand for ultra-micro-precision dispensing technology in high-performance micro- and nanometer encapsulation, connection, assembly manufacturing, considering great influence of colloid viscosity surface tension on process scale. According to principle liquid transfer, a method adhesive transfer that can realize fL–pL levels studied this paper. A mathematical model describing initial droplet volume was established, factors affecting were analyzed...