Develo** clean and renewable energy sources is key to a sustainable future. For human
society to progress sustainably, environmentally friendly energy conversion and storage …

In rechargeable batteries, stable electrode–electrolyte interface (EEI) formation is crucial for
achieving high Coulombic efficiency, rate capability, and cycling lifetime. Numerous studies …

Freestanding N-doped hard carbon fibers and consecutive intermixed N-doped hard
carbon@ soft carbon composite fibers were successfully prepared by a simple …

Interface engineering is an effective strategy to optimize the electronic properties of MoS 2,
yielding significantly improved electrochemical performance of lithium-ion batteries. We …

The low cost, high capacity and structural designability of carbon materials make them
promising candidates as anode materials for rechargeable lithium and sodium ion batteries …

Although GaZnON, an anion material, is thought to be a good anode candidate for lithium-
ion battery (LIB) owning to its superior chemical/structure stabilities and low volume …

Edge functionalization of graphene planes with nitrogen improves the electrochemical
performance of carbon anode materials in sodium-ion batteries. We propose a route for the …

Rechargeable aluminum-ion batteries (AIBs) possess a higher theoretical volumetric
capacity than lithium-ion batteries (LIBs) and offer a sustainable, low-cost alternative …

To restrict the volume expansion of FeO x nanoparticles were used as anode materials in
lithium-ion batteries during charge–discharge processes, FeO x nanoparticles were coated …

Construction of a robust artificial solid‐electrolyte interphase (SEI) layer has proposed an
effective strategy to overcome the instability of the lithium (Li). However, existing artificial SEI …