A5110463622- Advancements in Battery Materials
- Advanced Battery Materials and Technologies
- Advanced Battery Technologies Research
- Advanced battery technologies research
- Supercapacitor Materials and Fabrication
- Nuclear Materials and Properties
- High Temperature Alloys and Creep
- MXene and MAX Phase Materials
- Extraction and Separation Processes
- Geological and Geophysical Studies
- Fusion materials and technologies
- Thermal Expansion and Ionic Conductivity
- Paleontology and Stratigraphy of Fossils
- Advanced materials and composites
- Plant Diversity and Evolution
- Hydrocarbon exploration and reservoir analysis
- Microstructure and Mechanical Properties of Steels
- High-Temperature Coating Behaviors
- High Entropy Alloys Studies
- Metal and Thin Film Mechanics
- Medicinal Plants and Bioactive Compounds
- Inflammasome and immune disorders
- earthquake and tectonic studies
- Evolution and Paleontology Studies
- Plant Molecular Biology Research
Kunming University of Science and Technology
2018-2025
Gezhouba Group (China)
2025
Shanxi Provincial Traffic Planning Survey and Design Institute
2025
Cancer Hospital of Chinese Academy of Medical Sciences
2024
Sichuan University
2019-2023
PLA Academy of Military Science
2021-2022
Fujian Agriculture and Forestry University
2020-2022
Collaborative Innovation Center of Chemistry for Energy Materials
2016-2019
Xiamen University
2014-2019
Northeast Petroleum University
2013-2019
The development of new energy storage technology has played a crucial role in advancing the green and low-carbon revolution. This led to significant progress, spanning from fundamental research its practical application industry over past decade. Nevertheless, constrained performance materials poses challenge, as current electrochemical systems may struggle meet growing market demand. In recent years, carbon derived biomass garnered attention because customizable physicochemical properties,...
The integration of nickel (Ni) nanoparticle (NP)-embedded carbon layers (Ni@C) into the three-dimensional (3D) hierarchically porous architectures, where ultrahigh boron (B) and nitrogen (N) doping is a potential methodology for boosting Ni catalysts' water splitting performances, was achieved. In this study, novel 3D ultrafine NP-embedded B- N-codoped nanowires (denoted as Ni@BNPCFs) were successfully synthesized via pyrolysis corresponding acetate [Ni(AC)2·4H2O]-hydroxybenzeneboronic...
Abstract Promoting the sulfur reduction reaction (SRR) and evolution (SER) kinetics is crucial for practical lithium–sulfur batteries. However, electrode will be passivated by insulated Li 2 S if blindly accelerated SRR kinetics, meanwhile, high activation energy of lead to premature oxidation (SER), achieving limited catalyst. Here, a nano‐nickel nitrogen‐doped carbon gel material (CG/Ni) induces instantaneous nucleation, further endows fast ion/electron transfer, resulting porous 3D growth...
Graphite anodes, with their capacity nearing the theoretical maximum of 372 mA h g-1, are increasingly being complemented by silicon-based materials, which offer a 10-fold higher capacity. Nevertheless, extreme volume expansion (>300%) Si during cycling poses significant challenges to its practical deployment. Previous studies on synthesis binders often intricate and not conducive large-scale implementation. In this study, an innovative binder, denoted as HM, is developed combining...
Abstract Nanorod‐like CuS and Cu 2 S have been fabricated by a hydrothermal approach without using any surfactant template. The electrochemical behavior of nanorod anodes for lithium‐ion batteries reveal that they exhibit stable insertion/extraction reversibility outstanding rate capability. Both the electrodes excellent capacity retentions irrespective used, even at high current density 3200 mA g −1 . More than 370 mAh can be retained electrode 260 rate. After 100 cycles , obtained show...
The lack of suitable high-voltage cathode materials has hindered the development rechargeable magnesium batteries (RMBs). Here, mesoporous Na3 V2 (PO4 )3 /C (NVP/C) spheres have been synthesized through a facile spray-drying-annealing method, and their electrochemically desodiated phase NaV2 (ED-NVP/C) investigated as an intercalation host for Mg2+ ions. obtained ED-NVP/C exhibits average discharge voltage around 2.5 V (vs. /Mg), higher than those most previously reported materials. In...
Abstract Given the limitations inherent in current intercalation‐based Li‐ion batteries, much research attention has focused on potential successors to batteries such as lithium–sulfur (Li‐S) and lithium–oxygen (Li‐O 2 ) batteries. In order realize of these use metallic lithium anode is essential. However, there are severe safety hazards associated with growth Li dendrites, formation “dead Li” during cycles leads inevitable loss active Li, which end undoubtedly detrimental actual energy...
Lithium-ion batteries are the core components of new energy vehicles. Recycling spent lithium-ion resources is beneficial for sustainable development However, current traditional recycling strategy has disadvantages high consumption and complex treatment process, which do not meet requirements green saving. Here, we report a simpler greener approach to regenerate cathode materials by preoxidation followed short annealing approach. The generated material good crystal structure lower Li/Ni...
The lithium-sulfur battery is considered as a prospective candidate for high-energy-storage system because of its high theoretical specific capacity and energy. However, the dissolution shutter polysulfides lead to low active material utilization fast fading. Electrospinning technology employed directly coat an interlayer composed polyacrylonitrile (PAN) nitrogen-doped carbon black (NC) fibers on cathode. Benefiting from electrospinning technology, PAN-NC possess good electrolyte...
The lithium-sulfur battery, which offers a high energy density and is environmental friendly, promising next generation of rechargeable storage system. However, despite these attractive attributes, the commercialization battery primarily hindered by parasitic reactions between Li metal anode dissolved polysulfide species from cathode during cycling process. Herein, we synthesize sulfur-rich carbon polymer demonstrate that it material for performance battery. electrochemical studies reveal...