Add to ORKGExploring efficient nonprecious electrocatalysts for hydrogen evolution reaction (HER) in alkaline media is appealing yet challenging in the field of renewable energies. Herein, we present an experimental and theoretical exploration to demonstrate the in situ formation of binary MXene/Ni3S2 nanosheets over three-dimensional Ni foam (NF) in target functioning as a self-supported and highly effective electrocatalyst for alkaline HER. Benefiting from the outstanding electrical conductivity, superior hydrophilic interface for gas release, and synergistic coupling of Ti3C2Tx and Ni3S2, the HER test on Ti3C2Tx/Ni3S2/NF in 1 M KOH results in a low overpotential (72 mV) to produce a current density of 10 mA cm-2. The Tafel slope in response is 45 m...
Searching for efficient and robust non-noble electrocatalysts for hydrogen generation is extremely d...
Mo-Ni alloy-based electrocatalysts are regarded as promising candidates for the hydrogen evolution r...
In this study, conductive Ti3C2 MXenes were used as a promoter to accelerate charger transfer of MoS...
It is still a challenging issue to design earth-abundant electrocatalysts with low cost, high activi...
Designing low-cost hybrid electrocatalysts for hydrogen production is of significant importance. Rec...
Presented are the theoretical calculation and experimental studies of a Ti3C2Tx MXene‐based nanohybr...
Hydrogen evolution reaction (HER) in alkaline media using non-noble metal catalysts with great effic...
The development of bifunctional electrocatalysts with high performance for both hydrogen evolution r...
To find an effective alternative to scarce, high-cost noble platinum (Pt) electrocatalyst for hydrog...
The development of bifunctional electrocatalysts with high performance for both hydrogen evolution r...
Exploring efficient non-noble materials as hydrogen evolution reaction (HER) and oxygen evolution re...
Searching for earth-abundant and efficient electrocatalysts for large-scale hydrogen generation from...
Low overpotential driven water-splitting is globally proposed as an effective replacement of convent...
Hydrogen evolution reaction (HER) over the non-noble metal-based electrocatalysts is a promising app...
Earth-abundant and low-cost catalysts with excellent electrocatalytic hydrogen evolution reaction (H...
Searching for efficient and robust non-noble electrocatalysts for hydrogen generation is extremely d...
Mo-Ni alloy-based electrocatalysts are regarded as promising candidates for the hydrogen evolution r...
In this study, conductive Ti3C2 MXenes were used as a promoter to accelerate charger transfer of MoS...
It is still a challenging issue to design earth-abundant electrocatalysts with low cost, high activi...
Designing low-cost hybrid electrocatalysts for hydrogen production is of significant importance. Rec...
Presented are the theoretical calculation and experimental studies of a Ti3C2Tx MXene‐based nanohybr...
Hydrogen evolution reaction (HER) in alkaline media using non-noble metal catalysts with great effic...
The development of bifunctional electrocatalysts with high performance for both hydrogen evolution r...
To find an effective alternative to scarce, high-cost noble platinum (Pt) electrocatalyst for hydrog...
The development of bifunctional electrocatalysts with high performance for both hydrogen evolution r...
Exploring efficient non-noble materials as hydrogen evolution reaction (HER) and oxygen evolution re...
Searching for earth-abundant and efficient electrocatalysts for large-scale hydrogen generation from...
Low overpotential driven water-splitting is globally proposed as an effective replacement of convent...
Hydrogen evolution reaction (HER) over the non-noble metal-based electrocatalysts is a promising app...
Earth-abundant and low-cost catalysts with excellent electrocatalytic hydrogen evolution reaction (H...
Searching for efficient and robust non-noble electrocatalysts for hydrogen generation is extremely d...
Mo-Ni alloy-based electrocatalysts are regarded as promising candidates for the hydrogen evolution r...
In this study, conductive Ti3C2 MXenes were used as a promoter to accelerate charger transfer of MoS...