A5101680155- Bone Tissue Engineering Materials
- Periodontal Regeneration and Treatments
- Advanced Measurement and Metrology Techniques
- Pulsars and Gravitational Waves Research
- Advanced MEMS and NEMS Technologies
- Geophysics and Gravity Measurements
- Dental Implant Techniques and Outcomes
- Geophysics and Sensor Technology
- Advanced Battery Technologies Research
- Advancements in Battery Materials
- Antenna Design and Optimization
- Adaptive optics and wavefront sensing
- Bone Metabolism and Diseases
- Extraction and Separation Processes
- Spine and Intervertebral Disc Pathology
- Autonomous Vehicle Technology and Safety
- AI and Multimedia in Education
- Advanced Fiber Optic Sensors
- Fire Detection and Safety Systems
- Graphene and Nanomaterials Applications
- Bone fractures and treatments
- Nanoplatforms for cancer theranostics
- Advanced Battery Materials and Technologies
Nanchang University
2018-2024
Northeastern University
2024
First Affiliated Hospital of Jiangxi Medical College
2024
Jiangxi Provincial People's Hospital
2019-2020
State Key Laboratory of Vehicle NVH and Safety Technology
2019
This study aims to overcome the drawbacks associated with hydroxyapatite (HAP) dense structures after sintering, which often result in undesirable features such as large grain size, reduced porosity, high crystallinity, and low specific surface area. These characteristics hinder osseointegration limit clinical applicability of material. To address these issues, a new method involving preparation hollow (hHAP) microspheres has been proposed. exhibit distinctive traits including weak...
Purpose The purpose of this paper is the presentation and research a novel sensor fusion-based system for obstacle detection identification, which uses millimeter-wave radar to detect position velocity obstacle. Afterwards, image processing module bounding box regression algorithm in deep learning precisely locate identify obstacles. Design/methodology/approach Unlike traditional algorithms that use vision obstacles separately, purposed method determine approximate location then achieve...
Abstract Tilt-to-length (TTL) noise, caused by angular jitter and misalignment, is a major noise source in the inter-satellite interferometer for gravitational wave detection. However, required level of axis alignment optical components beyond current state art. A set parallel plates, called beam mechanism (BAM), proposed LISA to compensate error. In this paper, we show prototype design BAM demonstrate its performance ground-based system. We derive theoretical model, which agrees well with...
This research introduces a compact, auto-aligning interferometer engineered for measuring translations with wide angular working range and picometer precision above 1Hz. It presents design ensuring automatic beam alignment during movement through secondary reflection from corner reflector. The sensor head, 20×10×10mm 3 all-glass quasi-monolithic structure, exhibits displacement sensitivity below 1pm/Hz 1/2 1Hz of ±200mrad. versatile optical holds promise to improve the in applications such...
Potassium-ion batteries (PIBs) are regarded as a potential substitute for LIBs owing to the benefits of potassium’s abundance, low cost, and high safety. Nonetheless, practical implementation potassium-ion still encounters numerous challenges, with selection design anode materials standing out key factor impeding their progress. Hard carbon, characterized by its amorphous structure, specific surface area, well-developed pore facilitates insertion/extraction potassium ions, demonstrating...
Interferometers play a crucial role in high-precision displacement measurement such as gravitational-wave detection. Conventional interferometer designs require accurate laser alignment, including the pointing and waist position, to maintain high interference contrast during motion. Although corner reflector returns reflected beam parallel, there is still problem of lateral shift which reduces contrast. This paper presents new compact interferometric sensor head design for measuring...
Tilt-to-length (TTL) coupling, caused by the jitter of test masses or satellites, is a significant noise source in space-based gravitational wave detection. Calibrating and suppressing TTL coupling at sub-nanometer level essential. One main challenge current ground-based testing residual translational movement tilt actuator. This paper introduces development an advanced pure actuator (APTA) specifically designed for coupling. The APTA provides precise motion monitored four-beam...
Tilt-to-length (TTL) coupling, caused by the jitter of test masses or satellites, is a major noise source in space-based gravitational wave detection. Calibrating and suppressing TTL coupling at sub-nanometer level essential. A key challenge current ground-based testing residual translational movement tilt actuator. This paper presents development compact advanced pure actuator (APTA) specifically designed for coupling. The APTA enables precise motion, monitored four-beam interferometer...
Tilt-to-length (TTL) noise, caused by angular jitter and misalignment, is a major noise source in the inter-satellite interferometer for gravitational wave detection. However, required level of axis alignment optical components beyond current state art. A set parallel plates, called beam mechanism (BAM), proposed LISA to compensate error. In this paper, we show prototype design BAM demonstrate its performance ground-based system. We derive theoretical model, which agrees well with numerical...
Autogenous or allogenic bone transplantation is the main treatment for defects and nonunions. However, shortcomings of autogenous limit its wide application in clinical use.This study investigated effect poly(lactic-co-glycolic acid) (PLGA) microspheres loaded with pOsterix (pOsx)/polyethylenimine (PEI) nanoparticles repairing explored mechanism.Poly(lactic-co-glycolic pOsx/PEI were constructed. The Osx transfection was detected by fluorescence quantitative PCR western blotting methods....