A transformative strategy for the efficient preparation of vertical graphene sheets on conductive graphite foils, showcasing their potential applications in electrocatalysis and energy storage, is presented.

Categories: News

Efficient electrocatalysts are essential for sustainable hydrogen production. This work, done at the  ENPHOCAMAT Group, presents a rapid method for producing laser-induced vertical graphene nanosheets (LIVGNs) on graphite foil, achieving a 2.2-fold increase in capacitance. LIVGNs show enhanced electrocatalytic performance for hydrogen evolution, reducing the overpotential from −555 mV to −348 mV. The improvement is attributed to active sites on sharp edges and increased hydrophilicity. The LIVGN electrode demonstrates long-term stability, offering a promising approach for applications in electrocatalysis and energy storage.

Laser-Induced Vertical Graphene Nanosheets for Electrocatalytic Hydrogen Evolution. Stefanos Chaitoglou, Yang Ma, Rogelio Ospina, Ghulam Farid, Jarosław Serafin, Roger Amade-Rovira, Enric Bertran-Serra. ACS Appl. Nano Mater., 2024.

Menu