CA
Liaoning Technical University
Shuttle effect;lithium-sulfur batteries;First-principles calculations;g-C3N4;Transition metal atoms;Dual-atom catalysts
Pitch, Porous carbon, Electrochemical performance, Lithium-ion batteries, Negative electrode material
Supercapacitor, Transition metal selenides, Heterogeneous structure, Electrochemistry
Graphite Anode Defect Density Lithium-ion Diffusion Mechanical Properties Defect Engineering
Lithium-sulfur batteries, single-atom catalysts, Shuttle Effect, LUMO/HOMO
Graphite Electrode, Lithium Ion Intercalation;Diffusion Coefficient, MD, DFT
Shuttle effect;lithium-sulfur batteries;First-principles calculations;g-C3N4;Transition metal atoms;Single-atom catalysts
Dual-atom catalysts, single-layer g-C3N3, cathode material, lithium-sulfur batteries
composite, Li-S battery, cathode, Cycle performance, electrical chemistry
graphite, defect, first-principles, energy barrier
Lithium-sulfur batteries, solution-recrystallization, electrochemical properties