Mo-doped Ni3S4 nanosheets grown on carbonized wood as highly efficient and durable electrocatalysts for water splitting

“…(a) Schematic illustration of the synthetic processes of Mo–Ni 3 S 4 /CW and (b) HER performance for all as-prepared samples. This figure was reproduced with permission from ref . Copyright 2023 Elsevier.…”

“…101,102 For instance, Shi et al prepared a Mo-doped Ni 3 S 4 electrocatalyst, which was grown on carbonized wood incorporating Mo into the Ni 3 S 4 lattices. 103 The carbonized wood was first obtained through the simple direct pyrolysis, and the Mo−Ni 3 S 4 /CW composite with a well-developed lattice expansion, low-tortuous channels, hierarchical porosity, and high conductivity was successfully synthesized by a further hydrothermal method. Figure 6 104 The synthetic processes of MoS 2 @NiOOH@MC and water splitting are illustrated in Figure 7a.…”

“…Biomass-derived carbon-based materials and composites offer vast potential in electrocatalytic HER as a result of their distinctive morphology, high surface area, and porous structure. These features make them highly applicable and promising for various applications. , For instance, Shi et al prepared a Mo-doped Ni 3 S 4 electrocatalyst, which was grown on carbonized wood incorporating Mo into the Ni 3 S 4 lattices . The carbonized wood was first obtained through the simple direct pyrolysis, and the Mo–Ni 3 S 4 /CW composite with a well-developed lattice expansion, low-tortuous channels, hierarchical porosity, and high conductivity was successfully synthesized by a further hydrothermal method.…”

Review on Biomass-Derived Carbon-Based Materials for Electrocatalytic Hydrogen Production: State of the Art and Outlook

“…(a) Schematic illustration of the synthetic processes of Mo–Ni 3 S 4 /CW and (b) HER performance for all as-prepared samples. This figure was reproduced with permission from ref . Copyright 2023 Elsevier.…”

“…101,102 For instance, Shi et al prepared a Mo-doped Ni 3 S 4 electrocatalyst, which was grown on carbonized wood incorporating Mo into the Ni 3 S 4 lattices. 103 The carbonized wood was first obtained through the simple direct pyrolysis, and the Mo−Ni 3 S 4 /CW composite with a well-developed lattice expansion, low-tortuous channels, hierarchical porosity, and high conductivity was successfully synthesized by a further hydrothermal method. Figure 6 104 The synthetic processes of MoS 2 @NiOOH@MC and water splitting are illustrated in Figure 7a.…”

“…Biomass-derived carbon-based materials and composites offer vast potential in electrocatalytic HER as a result of their distinctive morphology, high surface area, and porous structure. These features make them highly applicable and promising for various applications. , For instance, Shi et al prepared a Mo-doped Ni 3 S 4 electrocatalyst, which was grown on carbonized wood incorporating Mo into the Ni 3 S 4 lattices . The carbonized wood was first obtained through the simple direct pyrolysis, and the Mo–Ni 3 S 4 /CW composite with a well-developed lattice expansion, low-tortuous channels, hierarchical porosity, and high conductivity was successfully synthesized by a further hydrothermal method.…”

Review on Biomass-Derived Carbon-Based Materials for Electrocatalytic Hydrogen Production: State of the Art and Outlook

“…Adulteration with heteroatoms has been regarded as one of the most promising methods to enhance the electrocatalytic properties of electrocatalysts. 23–25 The doping of metal heteroatoms can not only tune the electronic/lattice structure, but also introduce atomic distortions, and thereby expose additional active sites for the HER and HzOR. 26 The adsorption energy for intermediates towards various reactions could also be modulated in this way to accelerate the kinetics of the reactions.…”

In situ electronic redistribution of NiCoZnP/NF heterostructure via Fe-doping for boosting hydrazine oxidation and hydrogen evolution

“…Although several important progresses have been made, the detailed structure‐performance relationship and reaction mechanism are yet to be fully understood for wood‐based electrocatalysts for OWS. [ 31,32 ]…”

Hierarchically Porous Carbonized Wood Decorated with MoNi₄‐Embedded MoO₂ Nanosheets: An Efficient Electrocatalyst for Water Splitting