A5055260867- Hydrogen Storage and Materials
- Ammonia Synthesis and Nitrogen Reduction
- Hybrid Renewable Energy Systems
- MXene and MAX Phase Materials
- Advancements in Battery Materials
- Magnesium Alloys: Properties and Applications
- Advanced Battery Materials and Technologies
- Superconductivity in MgB2 and Alloys
- Advanced battery technologies research
- Advanced biosensing and bioanalysis techniques
- Microbial Inactivation Methods
- Supercapacitor Materials and Fabrication
- Nanomaterials for catalytic reactions
- Plasma Applications and Diagnostics
- Meat and Animal Product Quality
- Layered Double Hydroxides Synthesis and Applications
- Biosensors and Analytical Detection
- CRISPR and Genetic Engineering
- Electrocatalysts for Energy Conversion
- Catalytic Processes in Materials Science
- Advanced Photocatalysis Techniques
- Nanoplatforms for cancer theranostics
- Single-cell and spatial transcriptomics
- Spectroscopy and Chemometric Analyses
- Listeria monocytogenes in Food Safety
Nanjing Tech University
2016-2025
China Agricultural University
2014-2025
First Affiliated Hospital of Zhengzhou University
2023-2025
Fuzhou University
2023-2025
Materials Science & Engineering
2024
Institute of Zoology
2023-2024
Chinese Academy of Sciences
2007-2024
Guizhou Electric Power Design and Research Institute
2020-2024
Sichuan University
2019-2024
West China Second University Hospital of Sichuan University
2019-2024
Metal hydrides (MHs) have recently been designed for hydrogen sensors, switchable mirrors, rechargeable batteries, and other energy-storage conversion-related applications. The demands of MHs, particular fast absorption/desorption kinetics, brought their sizes to nanoscale. However, the nanostructured MHs generally suffer from surface passivation low aggregation-resisting structural stability upon absorption/desorption. This study reports a novel strategy named microencapsulated...
Abstract Direct photocatalytic methane oxidation into value‐added oxygenates under mild conditions enables the sustainable chemical production but suffers from lack of active photocatalysts and overoxidation issue. Herein, defective ZnO nanoplates supported AuPd nanoparticles for efficient with O 2 as oxidant at room temperature are reported. A maximum liquid productivity 152.2 m g −1 h a selectivity 86.7%, more than half which is CH 3 OH, achieved over optimized AuPd/ZnO photocatalyst,...
Vehicular networking is promising to improve traffic efficiency and driving safety, as well travel experience. However, the traditional network employs a highly coupled design, which quite limited in its ability satisfy various challenging vehicular demands. Recently, new studies focus on how design software defined networks smartly meet In this article, we investigate smart identifier (SINET) paradigm propose SINET customized solution enabling crowd collaborations for (SINET-V). particular,...
Metal nanocatalysis is an effective method to enhance the hydrogen storage properties of magnesium hydride (MgH2), and catalytic effect can be further improved by a matrix material supported nanometal. In this work, carbon nano-Ni (Ni@C) was synthesized calcination dimethylglyoxime dinickel chelate, then it doped into MgH2 improve de/rehydrogenation kinetics. This shows that homogeneously distributed Ni with refined particle size in base leads superior effects on absorption/desorption MgH2-5...
For the first time, few-layer Ti3C2Tx (FL-Ti3C2Tx) supporting highly dispersed nano-Ni particles with an interconnected and interlaced structure was elaborated through a self-assembly reduction process. FL-Ti3C2Tx not only acts as material but also self-assembles Ni2+ ions electrostatic interaction, assisting in of nano-Ni. After ball milling MgH2, Ni30/FL-Ti3C2Tx (few-layer supported 30 wt % via reduction) shows superior catalytic activity for MgH2. example, MgH2-5 can release approximately...
Realizing the rational design of perovskite oxides with controllable compositions and nanostructures remains a tremendous challenge for development efficient electrocatalysts. Herein, ligand-assisted synthetic strategy to fabricate LaCo1-x Fex O3 yolk-shell is developed. Benefiting from unique structural compositional merits, LaCo0.75 Fe0.25 exhibits an overpotential 310 mV at current density 10 mA cm-2 long-term stability 100 h oxygen evolution reaction. In situ Raman spectroscopy...
Two-dimensional Ti3C2Tx MXenes exposing different active facets are introduced into MgH2, and their catalytic effects systematically investigated in depth through experimental theoretical approaches. Excluding factors such as interlayer space, surface functional groups contingency, the exposed is considered to be dominant factor for activity of towards MgH2. More edge displays higher than that with more basal facets, which also leads rate-controlling steps MgH2 de/hydrogenation process. The...
Catalysis has been demonstrated to be effective in enhancing the kinetics of MgH2, which widely investigated as one most promising solid-state hydrogen storage materials. It is essential and challenging design catalysts with high activity understand corresponding interaction mechanisms between especially for multiphase catalyst systems. In this study, an elaborated VS2/NiS2 based on well-combined components heterostructure exploited substantially improve performance MgH2. Impressively, rapid...
Abstract Deciphering universal gene regulatory mechanisms in diverse organisms holds great potential for advancing our knowledge of fundamental life processes and facilitating clinical applications. However, the traditional research paradigm primarily focuses on individual model does not integrate various cell types across species. Recent breakthroughs single-cell sequencing deep learning techniques present an unprecedented opportunity to address this challenge. In study, we built extensive...
Catalysts play an extraordinarily important role in accelerating the hydrogen sorption rates metal-hydrogen systems. Herein, we report a surprisingly synergetic enhancement of metal-metal oxide cocatalyst on properties MgH2: only 5 wt % doping Ni into ultrafine TiO2 enables significant increase desorption kinetics; it absorbs 4.50 even at low temperature 50 °C. The striking improvement is partially ascribed to formation particular Ni@TiO2 core-shell structure, thereby forming versatile...
Reducing Mg particles to nanoscale and doping with various catalysts are considered as efficient approaches for improving the hydrogen storage properties of Mg/MgH2. It has been established that Ni or Mg2Ni into nano-Mg/MgH2 through physical routes remarkably improves sorption kinetics. In this work, a Mg–Ni nanocomposite coprecipitated from tetrahydrofuran (THF) solution containing anhydrous magnesium chloride (MgCl2), nickel (NiCl2), lithium naphthalide (LiNp) reducing agent. TEM...