Well-dispersed FeNi nanoparticles embedded in N-doped carbon
It is reasonable to believe that the flexible self-supporting FeNi@NCNF electrode can be immediately employed in flexible cells without additional additives, which fulfills
Biomass-derived FeNi alloy and nitrogen-codoped porous
Here, we, for the first time, use abundantly available peanut shells as precursors and small amount of iron and nickel salts as non-precious metal sources to successfully
Robust and flexible 3D integrated FeNi@NHCFs air electrode
This work demonstrates that in situ growth of FeNi@NHCFs 3D integrated electrode via the electrospinning method could be a reference for designing and synthesizing
FeNi Confined in N-Doped Carbon as a Highly
Here, we outline an easy method for creating a N-doped carbon supported FeNi alloy as a bifunctional catalyst. The process
Graphene-supported Fe/Ni single atoms and FeNi alloy
Herein, we report a bifunctional oxygen electrocatalyst consisting of ZIF-derived carbon-anchored Fe/Ni single atoms and FeNi alloy nanoparticles; meanwhile, graphene is
FeNi alloy embedded in three-dimensional nitrogen-doped porous
After the subsequent pyrolysis process, a bifunctional FeNi alloy homogeneously dispersed in 3D nitrogen-doped porous carbon catalyst (FeNi@NC) was generated and used
FeNi alloy anchored on waste cotton derived N-doped carbon
In this work, we demonstrated a facile method to synthesize FeNi alloy nanoparticles and nitrogen-doped carbon composite materials (FeNi@NDC) for bifunctional
FeNi alloy embedded in three-dimensional nitrogen-doped porous
Thus, a FeNi alloy uniformly embedded in 3D nitrogen-doped porous carbon materials (FeNi@NC) was constructed in the subsequent pyrolysis process and used as an efficient
FeNi alloys supported on nitrogen-enriched carbon nanospheres
Here, we have successfully prepared an integrated electrocatalyst consisting of nitrogen-enriched porous carbon nanospheres and FeNi alloy NPs (P-FeNi/NC) by
FeNi Confined in N-Doped Carbon as a Highly Efficient Bi
Here, we outline an easy method for creating a N-doped carbon supported FeNi alloy as a bifunctional catalyst. The process includes uniformly binding the metal ions with α-D
FeNi decorated nitrogen-doped hollow carbon spheres as
Research on non-noble metal bifunctional electrocatalysts with high efficiency and long-lasting stability is crucial for many energy storage devices such as zinc–air batteries.