A5014077570- Advancements in Battery Materials
- Advanced Battery Materials and Technologies
- Supercapacitor Materials and Fabrication
- Electromagnetic wave absorption materials
- Advanced Antenna and Metasurface Technologies
- Advanced battery technologies research
- Advanced ceramic materials synthesis
- Advanced Battery Technologies Research
- Semiconductor materials and devices
- Atomic and Subatomic Physics Research
- Metamaterials and Metasurfaces Applications
- Quantum optics and atomic interactions
- Advanced materials and composites
- Extraction and Separation Processes
- Magnetic Properties and Synthesis of Ferrites
- Quantum Mechanics and Non-Hermitian Physics
- Aluminum Alloys Composites Properties
- Semiconductor materials and interfaces
- Photorefractive and Nonlinear Optics
- MXene and MAX Phase Materials
- Electrocatalysts for Energy Conversion
- Graphene research and applications
- Fuel Cells and Related Materials
- Covalent Organic Framework Applications
- Advanced Sensor and Energy Harvesting Materials
Xi'an Jiaotong University
2024-2025
The University of Texas at Arlington
2002-2024
The University of Texas at Dallas
2024
Dalian Institute of Chemical Physics
2021-2023
Chinese Academy of Sciences
2021-2023
Shandong University
2016-2020
Iqra University
2018-2019
Abstract Amorphous Si (a‐Si) shows potential advantages over crystalline (c‐Si) in lithium‐ion batteries, owing to its high lithiation and good tolerance intrinsic strain/stress. Herein, porous a‐Si has been synthesized by a simple process, without the uses of dangerous or expensive reagents, sophisticated equipment, strong acids that cause environment risks. These particles exhibit excellent electrochemical performances, their structure, amorphous nature, surface modification. They deliver...
Silicon (Si)-based materials are intensively pursued as the most promising anode for next-generation lithium-ion batteries (LIBs) owing to their high theoretical mass-specific capacity, moderate working potential, and abundance in earth's crust. Therefore, it has attracted widespread attention both from academia industries. Despite above advantages, electrochemical performance is hampered by severe volume variation, resulting poor cyclability subsequently electrode failure. In this regard,...
Abstract Silicon (Si)‐based anode materials with suitable engineered nanostructures generally have improved lithium storage capabilities, which provide great promise for the electrochemical performance in lithium‐ion batteries (LIBs). Herein, a metal–organic framework (MOF)‐derived unique core–shell Si/SiO x @NC structure has been synthesized by facile magnesio‐thermic reduction, Si and SiO matrix were encapsulated nitrogen (N)‐doped carbon. Importantly, well‐designed nanostructure enough...
Abstract The two‐dimensional (2D) metal‐organic frameworks (MOFs) have capabilities to reduce CO 2 with high Faradaic efficiency (FE). Herein, the role of incorporating bimetallic Ni and Fe into newly constructed MOFs is studied. This work highlights use synergistic effect surrounded nitrogen atoms, opening new avenues for efficient electrocatalytic reduction . MOF Ni‐Fe contains moieties by four atoms via covalent bonding, which resembles porphyrin‐based molecular units as selective...
A highly flexible, tunable morphology membrane with excellent thermal stability and ionic conductivity can endow lithium metal batteries high power density reduced dendrite growth. Herein, a porous Polyurethane (PU) an adjustable was prepared by simple nonsolvent-induced phase separation technique. The precise control of the final PU membranes be achieved through appropriate selection nonsolvent, resulting range pore structures that vary from finger-like voids to sponge-like pores....
Drug carriers have been designed and investigated remarkably due to their effective use in the modern medication process. In this study, decoration of Mg12O12 nanocluster has done with transition metals (Ni Zn) for adsorption metformin (anticancer drug). Decoration Ni Zn on a allows two geometries, similarly, also provides geometries. Density functional theory time-dependent density employed at B3LYP 6-311G(d,p) level. The offers good attachment detachment drug, which is observed from energy...
Current commercial nickel (Ni)-rich Mn, Co, and Al-containing cathodes are employed in high-energy-density lithium (Li) batteries all around the globe. The presence of Mn/Co them brings out several problems, such as high toxicity, cost, severe transition-metal dissolution, quick surface degradation. Herein, a Mn/Co-free ultrahigh-Ni-rich single-crystal LiNi0.94Fe0.05Cu0.01O2 (SCNFCu) cathode with acceptable electrochemical performance is benchmarked against Mn/Co-containing cathode. Despite...
We report non-Hermitian energy level alignment via photon–phonon dressing quantization. propose a spectral homogenizer based on four types of alignment, revealing that the reverse effect induces this alignment.
Abstract Amorphous Si (a‐Si) shows potential advantages over crystalline (c‐Si) in lithium‐ion batteries, owing to its high lithiation and good tolerance intrinsic strain/stress. Herein, porous a‐Si has been synthesized by a simple process, without the uses of dangerous or expensive reagents, sophisticated equipment, strong acids that cause environment risks. These particles exhibit excellent electrochemical performances, their structure, amorphous nature, surface modification. They deliver...
Abstract Synthesis of silicon/carbon (Si/C) composites from biomass resources could enable the effective utilization agricultural products in battery industry with economical as well environmental benefits. Herein, a simplified process was developed to synthesize Si/C biomass, by using low‐cost byproduct “rice husk (RH)” model. This includes calcination RH for SiO 2 /C and reduction Al molten salts at moderate temperature. does not need removal carbon before thermal , which is thought be...
A novel and conjugated 2D 250-HADQ COF exhibits a high specific surface area excellent thermal stability yielding values of gravimetric capacitance energy density in two-electrode double-layer supercapacitor cells.