A5100654270- High-Energy Particle Collisions Research
- Quantum Chromodynamics and Particle Interactions
- Particle physics theoretical and experimental studies
- Advancements in Battery Materials
- Advanced Battery Materials and Technologies
- Metallic Glasses and Amorphous Alloys
- High Entropy Alloys Studies
- Advanced Battery Technologies Research
- Glass properties and applications
- Hydraulic and Pneumatic Systems
- High-Temperature Coating Behaviors
- Advanced Sensor Technologies Research
- Nuclear reactor physics and engineering
- Material Dynamics and Properties
- Additive Manufacturing Materials and Processes
- Chemical Synthesis and Characterization
- Theoretical and Computational Physics
- Topic Modeling
- Primate Behavior and Ecology
- Advanced battery technologies research
- Intermetallics and Advanced Alloy Properties
- Supercapacitor Materials and Fabrication
- Wood Treatment and Properties
- SARS-CoV-2 and COVID-19 Research
- Flow Measurement and Analysis
Beijing National Laboratory for Molecular Sciences
2023-2025
Chinese Academy of Sciences
2010-2025
Shanghai Technical Institute of Electronics & Information
2024-2025
Guangzhou Institutes of Biomedicine and Health
2025
Shandong First Medical University
2025
University of Chinese Academy of Sciences
2013-2024
Institute of Chemistry
2023-2024
Luoyang Institute of Science and Technology
2024
South China Agricultural University
2024
Chongqing University
2023
Abstract High‐energy lithium‐ion batteries built with silicon‐based anode materials are usually associated short cycle lives due to mechanical failure at an level and more importantly, electrochemical a cell as result of irreversible consumption cathode Li during initial charge. (Electro)chemical prelithiation has shown promises compensate loss improve cycling performance the battery. However, previous strategies applied directly or could raise concerns on safety degraded electrode...
Aqueous rechargeable Li/Na-ion batteries have shown promise for sustainable large-scale energy storage due to their safety, low cost, and environmental benignity. However, practical applications of aqueous are plagued by water's intrinsically narrow electrochemical stability window, which results in density. In this perspective article, we review several strategies broaden the window electrolytes realize high-energy batteries. Specifically, highlight our recent findings on stabilizing Li...
Graphite has been serving as the key anode material of rechargeable Li-ion batteries, yet is difficultly charged within a quarter hour while maintaining stable electrochemistry. In addition to defective edge structure that prevents fast entry, high-rate performance graphite could be hampered by co-intercalation and parasitic reduction solvent molecules at anode/electrolyte interface. Conventional surface modification pitch-derived carbon barely isolates electrons, usually lead inadequate...
Lithium-metal anodes show significant promise for the construction of high-energy rechargeable batteries due to their high theoretical capacity (3860 mAh g-1) and low redox potential (-3.04 V vs. a standard hydrogen electrode). When Li metal is used with conventional liquid solid electrolytes, poor lithiophilicity electrolyte results in an unfavorable parasitic reaction uneven distribution Li+ flux at electrode/electrolyte interface. These issues result limited cycle life dendrite problems...
Abstract: The storage and utilization of energy is one the important topics in development science technology, especially regarding secondary batteries, which are efficient electrical-/chemical-energy-converting devices. This review systematically introduces research progress made context starting from their leading to introduction related basic theoretical knowledge. current on batteries that based different systems key materials discussed detail, includes lithium-ion sodium-ion...
Single-crystalline nickel-rich layered oxides are promising cathode materials for building high-energy lithium-ion batteries because of alleviated particle cracking and irreversible phase transitions upon cycling, compared with their polycrystalline counterparts. Under a high state charge, parasitic reactions tend to occur at the cathode-electrolyte interface, which could result in sluggish Li-ion diffusion kinetics quickly faded electrochemical performance cathodes. In this work,...
Abstract Graphite has been serving as the key anode material of rechargeable Li‐ion batteries, yet is difficultly charged within a quarter hour while maintaining stable electrochemistry. In addition to defective edge structure that prevents fast entry, high‐rate performance graphite could be hampered by co‐intercalation and parasitic reduction solvent molecules at anode/electrolyte interface. Conventional surface modification pitch‐derived carbon barely isolates electrons, usually lead...
Abstract Incorporating functional fluorinated additives into the electrolyte has demonstrated a promising strategy for improving electrochemical and interfacial stability of silicon‐based anode materials. In previous studies, these are claimed responsible formation solid interphase (SEI) owing to matched orbital energy level with other components. The electric double layer (EDL) created via ionic‐electronic coupling at (sub)nanoscale shows potential influence on initial SEI anode, yet...
Scheduling problems are common in many fields, with project planning, industrial, operations management, and service establishment. These involve the advanced distribution of resources across tasks to exploit exact objectives within predetermined bounds. This study examines an enhanced simulated annealing (ESA) algorithm for addressing dynamic scheduling challenges job shops, particularly context random arrivals frequently encountered manufacturing environments. programming methodology seeks...
Tissue regeneration is regulated by morphological clues of implants in bone defect repair. Engineered morphology can boost regenerative biocascades that conquer challenges such as material bioinertness and pathological microenvironments. Herein, a correlation between the liver extracellular skeleton signaling, namely hepatocyte growth factor receptor (MET), found to explain mystery rapid regeneration. Inspired this unique structure, biomimetic prepared on polyetherketoneketone (PEKK) via...
Abstract Complex changes in climate change have caused numerous changes, such as rising temperature and increasing precipitation frequency, representing dynamic environmental for birds. It results birds’ responses, migration routes. To better understand the study aims to reveal impacts of on behavior proper approaches toward addressing its effects. The shows that has advanced spring migration, habitat, higher possibility disease transmission, earlier egg-laying time, less food availability,...
Abstract Lithium‐sulfur battery represents an innovative technology for the next generation electrochemical energy storage, and insight into fundamentals about its electrochemistry is a key to improved storage performance. With years of striving efforts, interpretation Li−S reaction mechanism has been extended down molecular level. Based on our recent work, we propose re‐examine at (sub)atomic Both Li anode S cathode are made up mixtures stable isotopes. Provided with almost same nucleus...
Sulfur in nature consists of two abundant stable isotopes, with more neutrons the heavy one ( 34 S) than light 32 S). The isotopes show similar physicochemical properties and are usually considered an integral system for chemical research various fields. In this work, a model study based on Li–S battery was performed to reveal variation between electrochemical S isotopes. Provided same octatomic ring structure, cyclo - 8 molecules form stronger S–S bonds prone react Li. soluble Li...
Icaritin has potential anticancer effects on various cancers, including multiple myeloma (MM). Recent studies claim that can regulate the expression of noncoding RNAs (ncRNAs) in cancer development. This study aimed to investigate role circular RNA_0000190 (circ_0000190) and functional mechanism Icaritin-treated MM. The circ_0000190 miR-301a was detected by quantitative real-time polymerase chain reaction. Cell cycle, apoptosis, migration, invasion were investigated using flow cytometry...
Based on the dynamics of Flibe (2LiF-BeF2), thermal neutron scattering library (TSL) is generated by NJOY in this paper. We worked TSL data through microscopic analysis. With increas temperature and translational weight liquid Flibe, inelastic cross section decreases average energy secondary increases. Using critical calculation for molten salt reactor also conducted MCNP. Result shows k eff influenced obviously (about 0.8%). It suggested that should be taken into account reactor.