A5023122696- Advanced Battery Materials and Technologies
- Advancements in Battery Materials
- DNA Repair Mechanisms
- Bone fractures and treatments
- Advanced biosensing and bioanalysis techniques
- AI in cancer detection
- Biosensors and Analytical Detection
- Advanced battery technologies research
- CRISPR and Genetic Engineering
- Central Venous Catheters and Hemodialysis
- Extracellular vesicles in disease
- Foreign Body Medical Cases
- Supercapacitor Materials and Fabrication
- Advanced Battery Technologies Research
- Intestinal Malrotation and Obstruction Disorders
- Concrete Corrosion and Durability
- Medical Imaging and Analysis
- Calibration and Measurement Techniques
- Digital Imaging for Blood Diseases
- Pelvic and Acetabular Injuries
- Congenital Anomalies and Fetal Surgery
- Advanced Biosensing Techniques and Applications
- Congenital gastrointestinal and neural anomalies
- Covalent Organic Framework Applications
- Abdominal Surgery and Complications
Nankai University
1985-2025
Iowa State University
2019-2025
Beijing United Family Hospital
2018-2024
Affiliated Hospital of Jining Medical University
2020-2024
Fudan University
2022
Zhejiang University
2019-2021
Tsinghua University
2014-2021
Second Affiliated Hospital of Zhejiang University
2021
Institute of New Materials
2019
United Hospital
2018
Searching for cheap, efficient, and stable oxygen electrocatalysts is vital to promote the practical performance of Zn-air batteries with high theoretic energy density. Herein, a series Co nanoparticles highly dispersed Fe loaded on N-doped porous carbon substrates are prepared through "double-solvent" method in situ doped metal-organic frameworks as precursors. The optimized catalysts exhibit excellent reduction evolution reaction. Furthermore, rechargeable designed demonstrate higher peak...
Abstract Li‐CO 2 batteries are promising energy storage systems by utilizing CO at the same time, though there still some critical barriers before its practical applications such as high charging overpotential and poor cycling stability. In this work, iridium/carbon nanofibers (Ir/CNFs) prepared via electrospinning subsequent heat treatment, used cathode catalysts for rechargeable batteries. Benefitting from unique porous network structure activity of ultrasmall Ir nanoparticles, Ir/CNFs...
Rechargeable Li-O2 batteries have aroused much attention for their high energy density as a promising battery technology; however, the performance of is still unsatisfactory. Lithium anodes, one most important part batteries, play vital role in improving cycle life batteries. Now, very simple method introduced to produce protective film on lithium surface via chemical reactions between metals and 1,4-dioxacyclohexane. The mainly composed ethylene oxide monomers endows with enhanced cycling...
Abstract Li‐O 2 batteries, known for their impressive theoretical specific energy, face significant practical challenges, including slow kinetics, voltage hysteresis, and reduced cycle life. In this study, a novel approach is introduced utilizing bimetallic metal‐organic framework as Fe‐UiO‐66 multifunctional photocatalyst to enhance the oxygen‐related reactions in photo‐assisted batteries. contrast UiO‐66, exhibits an extended response visible light, confirmed through UV–vis...
Abstract Purpose Epilepsy is one of the most disabling neurological disorders, which affects all age groups and often results in severe consequences. Since misdiagnoses are common, many pediatric patients fail to receive correct treatment. Recently, 18 F-fluorodeoxyglucose positron emission tomography ( F-FDG PET) imaging has been used for evaluation epilepsy. However, epileptic focus very difficult be identified by visual assessment since it may present either hypo- or hyper-metabolic...
Abstract N 2 fixation is a challenging and rewarding issue. However, the traditional Haber–Bosch process consumes large amount of fossil fuels, resulting in serious environmental pollution. Instead, electroreduction promising way to convert utilize . Among various methods, combining reduction with batteries simple efficient. Here, composite ultrasmall Mo C particles highly dispersed on N‐doped carbon nanosheets prepared, it applied as air cathode for Li–N batteries. show high discharge...
Abstract Rechargeable Li‐O 2 batteries have aroused much attention for their high energy density as a promising battery technology; however, the performance of is still unsatisfactory. Lithium anodes, one most important part batteries, play vital role in improving cycle life batteries. Now, very simple method introduced to produce protective film on lithium surface via chemical reactions between metals and 1,4‐dioxacyclohexane. The mainly composed ethylene oxide monomers endows with enhanced...
The enormous overpotential caused by sluggish kinetics of the oxygen reduction reaction and evolution prevents practical application Li-O2 batteries. recently proposed light-assisted strategy is an effective way to improve round-trip efficiency; however, high-potential photogenerated holes during charge would degrade electrolyte with side reactions poor cycling performance. Herein, a synergistic interaction between polyterthiophene photocatalyst redox mediator employed in During discharge,...
The effect of steady-state increases in abdominal pressure (Pab) on cardiac performance was studied seven acutely instrumented swine with pneumoperitoneum (PP). animal placed volume-preset ventilation, and PP created by air insufflation. Cardiac output (CO), right atrial (Pra), left (Pla), pericardial (Ppe), inferior vena cava pressures (Pivc) were measured while Pab increased from baseline to 7.5, 15, 30 mmHg (PP7.5, PP15, PP30, respectively). function curves the ventricle (RV LV,...
Li–O<sub>2</sub> batteries suffer from high polarization and low energy density partly due to the film-like insulating product of Li<sub>2</sub>O<sub>2</sub>. These problems could be alleviated by a dual-function redox mediator, MoCl<sub>5</sub>, which promotes both discharge charge processes.
Abstract Li‐O 2 batteries are promising energy storage systems due to their ultra‐high theoretical capacity. However, most based on the reduction/oxidation of Li O and involve highly reactive superoxide peroxide species that would cause serious degradation cathodes, especially carbon‐based materials. It is important explore lithium‐oxygen reactions find new chemistry which can restrict or even avoid negative influence superoxide/peroxide species. Here, inspired by enzyme‐catalyzed oxygen...
Graphene, as a proof‐of‐concept two‐dimensional material, has proven to have excellent physical and chemical properties. Its derivatives, such defective or doped graphene, are also applied catalytic materials for metal–air batteries (MABs). MABs been recognized possible candidates new‐generation energy storage systems due their ultra‐high theoretical density. So far, graphene its derivatives with optimized structures widely explored improve the electrochemical performance in MABs. Generally...
Abstract Hypomorphic mutations which lead to decreased function of the NBS1 gene are responsible for Nijmegen breakage syndrome, a rare autosomal recessive hereditary disorder that imparts an increased predisposition development malignancy. The protein is component MRE11/RAD50/NBS1 complex plays critical role in cellular responses DNA damage and maintenance chromosomal integrity. Using small interfering RNA transfection, we have knocked down levels analyzed relevant phenotypes two closely...
The integration of photovoltaic conversion and electrical energy storage in photoelectrochemical systems has emerged as a highly promising technological approach. Leveraging the excellent light absorption properties catalytic activity polythiophene, we designed constructed photo-assisted water-splitting secondary battery system. This system utilizes polythiophene-integrated photoelectrode combined with zinc-air charging zinc-proton discharging. During process, introduction significantly...
This study introduces a plant sensor utilizing an array of microneedles to monitor hydrogen peroxide (H2O2) in tobacco and soybean plants under biotic stress response. The microneedle features biohydrogel layer composed the natural biopolymer chitosan (Cs) reduced graphene oxide (rGO), functionalized with horseradish peroxidase (HRP) (HRP/Cs-rGO). HRP/Cs-rGO combines biocompatibility, hydrophilicity, porosity, electron transfer ability, making it suitable bioelectrode material for...
This work reports a 3D-printed metasurface as biosensing device that combines the functions of sample enrichment and quantification. The consists nanoplasmonic sensing element surrounded by biomimetic hydrophobic structure. structure serves concentrator can enrich analyte, which is subsequently quantified biosensor. Both nanoscale biosensor microscale were fabricated using two-photon polymerization lithography (TPL). microstructure was inspired natural patterns found on surfaces like lotus...