Complex electrolyte diffusion through the stacked graphene nanosheets limits their
electrochemical performance. As a potential solution, this study explored the potential of …

Highly crumpled graphene-based three dimensional (3D) interconnected and hierarchically
porous conducting networks were prepared for application as electrocatalytic counter …

Desirable porous structure and huge ion-accessible surface area are crucial for rapid
electronic and ionic pathway electrodes in high-performance graphene-based …

Two-dimensional (2D) graphene nanosheets are considered as an attractive support to load
metal nanoparticles for applications in fuel cells due to their extraordinary physicochemical …

Graphene and its hybrids have been considered promising candidates for electrochemical
energy storage because of their fascinating physicochemical properties. However, they …

Graphene, a two-dimensional carbon sheet,[1] has attracted great interest due to its unique
properties.[2, 3] To explore its practical applications, large-scale synthesis with controllable …

Nitrogen-doped graphene quantum dots (NGQDs) are a diverse organic catalyst,
competitive with other metallic catalysts due to their low cost, high stability, biocompatibility …

Graphene, as a highly promising electrode material, has garnered significant attentions due
to its remarkable properties. Nevertheless, challenges persist in its commercial application …

Integrated fabrication and synergistic cooperation between active sites and carrier are
expected to hunt nonprecious electrocatalysts with high efficiency and durability for …

A novel three-dimensional (3D) nanoarchitecture consisting of hybrid graphene nanosheets
(GNs)/graphene foam (GF) was fabricated on the FTO conducting substrate as a high …