A5021204687- Advanced battery technologies research
- Electrochemical Analysis and Applications
- Electrocatalysts for Energy Conversion
- Flame retardant materials and properties
- Advanced Battery Materials and Technologies
- Electrohydrodynamics and Fluid Dynamics
- Neural Networks and Reservoir Computing
- Advanced Cellulose Research Studies
- Dyeing and Modifying Textile Fibers
- Surface Modification and Superhydrophobicity
- Mechanical and Optical Resonators
- Photonic and Optical Devices
- Semiconductor materials and interfaces
- Polymer composites and self-healing
- Advancements in Battery Materials
Tiangong University
2025
Lanzhou University
2023-2024
Inner Mongolia University of Science and Technology
2024
Center for Theoretical Physics
2023
Abstract Design the electrocatalysts without noble metal is still a challenge for oxygen evolution reaction (OER) in acid media. Herein, we reported manganese (Mn) doping method to decrease concentration of vacancy (V O ) and form Mn−O structure adjacent octahedral sites spinel NiCo 2 4‐δ (NiMn 1.5 Co 3 ), which highly enhanced activity stability with low overpotential ( η 280 mV at j =10 mA cm −2 long‐term 80 h The isotopic labelling experiment based on differential electrochemical mass...
We propose an experimentally feasible scheme for realizing quantum state transfer via the topological edge states in a one-dimensional cavity-magnon lattice. find that system can be mapped analytically into generalized Su-Schrieffer-Heeger model with tunable coupling. It shown served as channel to realize photonic and magnonic transfers by adjusting cavity-cavity coupling strength. Further, our between changing amplitude of intracell hopping. With numerical simulation, we quantitatively show...
Abstract Design the electrocatalysts without noble metal is still a challenge for oxygen evolution reaction (OER) in acid media. Herein, we reported manganese (Mn) doping method to decrease concentration of vacancy (V O ) and form Mn−O structure adjacent octahedral sites spinel NiCo 2 4‐δ (NiMn 1.5 Co 3 ), which highly enhanced activity stability with low overpotential ( η 280 mV at j =10 mA cm −2 long‐term 80 h The isotopic labelling experiment based on differential electrochemical mass...
Layered indium selenide is a new two-dimensional (2D) semiconductor material with high carrier mobility, widely adjustable band gap, and ductility. However, its ion storage behavior related electrochemical reaction mechanism have been rarely reported. In this study, InSe nanoflakes encapsulated in conductive polypyrrole was designed out consideration of restraining the severe volume change increasing conductivity via situ chemical oxidation polymerization. Density functional theory...