FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3201511377> ?p ?o ?g. }

• W3201511377 endingPage "37883" @default.
• W3201511377 startingPage "37872" @default.
• W3201511377 abstract "It remains a challenge to explore economical, high-effective and long term stability electrocatalysts toward large-scale hydrogen production. This work utilizes surface engineering strategy to in-situ CoFe-Prussian Blue Analogues on NiCo-layered double hydroxides to obtain 3D hierarchical heterostructure precursor (NiCo–CoFe-PBA). After phosphatization, this precursor can be further transform into tri-metallic phosphide (NiCoP/[email protected]) and directly act as efficient self-supported electrode for Water and Urea Electrolysis. Impressively, the obtained NiCoP/[email protected] (±) electrode shows excellent catalytic performance with only requires the cell voltage of 1.61 and 1.46 V to deliver 10 mA cm−2 in overall water splitting and urea electrolysis, respectively, which benefiting from the porous Ni foam (NF) substrate, large catalytic activity area, remarkable mass/electron transfer property, the synergistic effect of components as well as superhydrophilicity and superaerophobicity of electrode surface. In addition, the experimental results also confirm that urea-assisted system has energy saving advantage superior than traditional water splitting in alkaline electrolyte. Moreover, the hierarchical strategy can also be introduced to the construction of other intricate composites for the utilization in energy conversion and storage." @default.
• W3201511377 created "2021-09-27" @default.
• W3201511377 creator A5015855828 @default.
• W3201511377 creator A5016034793 @default.
• W3201511377 creator A5037989560 @default.
• W3201511377 creator A5038597257 @default.
• W3201511377 creator A5054826934 @default.
• W3201511377 creator A5059354688 @default.
• W3201511377 creator A5068257850 @default.
• W3201511377 creator A5080029278 @default.
• W3201511377 date "2021-11-01" @default.
• W3201511377 modified "2023-09-27" @default.
• W3201511377 title "Systematic constructing CoFe-Prussian blue analogue on NiCo-layered double hydroxide to obtain heterostructure two-bimetallic phosphide composite as efficient self-supported eletrocatalyst for overall water and urea electrolysis" @default.
• W3201511377 cites W1992258332 @default.
• W3201511377 cites W2090224664 @default.
• W3201511377 cites W2092442698 @default.
• W3201511377 cites W2125678704 @default.
• W3201511377 cites W2314593214 @default.
• W3201511377 cites W2341944895 @default.
• W3201511377 cites W2397271592 @default.
• W3201511377 cites W2490807277 @default.
• W3201511377 cites W2538550044 @default.
• W3201511377 cites W2552766327 @default.
• W3201511377 cites W2565244115 @default.
• W3201511377 cites W2596567502 @default.
• W3201511377 cites W2612968559 @default.
• W3201511377 cites W2613070822 @default.
• W3201511377 cites W2613194023 @default.
• W3201511377 cites W2733874439 @default.
• W3201511377 cites W2738731106 @default.
• W3201511377 cites W2745069911 @default.
• W3201511377 cites W2767762535 @default.
• W3201511377 cites W2788043195 @default.
• W3201511377 cites W2790407078 @default.
• W3201511377 cites W2803833520 @default.
• W3201511377 cites W2806209856 @default.
• W3201511377 cites W2890935995 @default.
• W3201511377 cites W2891221877 @default.
• W3201511377 cites W2892158665 @default.
• W3201511377 cites W2892186367 @default.
• W3201511377 cites W2898438378 @default.
• W3201511377 cites W2904006969 @default.
• W3201511377 cites W2904225648 @default.
• W3201511377 cites W2906091907 @default.
• W3201511377 cites W2908611406 @default.
• W3201511377 cites W2910075226 @default.
• W3201511377 cites W2913641521 @default.
• W3201511377 cites W2925416586 @default.
• W3201511377 cites W2928714382 @default.
• W3201511377 cites W2944174955 @default.
• W3201511377 cites W2946450223 @default.
• W3201511377 cites W2948345758 @default.
• W3201511377 cites W2953735625 @default.
• W3201511377 cites W2955632254 @default.
• W3201511377 cites W2962339058 @default.
• W3201511377 cites W2964227188 @default.
• W3201511377 cites W2966767056 @default.
• W3201511377 cites W2969491535 @default.
• W3201511377 cites W2972174391 @default.
• W3201511377 cites W2973481792 @default.
• W3201511377 cites W2980726109 @default.
• W3201511377 cites W2980863264 @default.
• W3201511377 cites W2981908337 @default.
• W3201511377 cites W2995874543 @default.
• W3201511377 cites W2996396872 @default.
• W3201511377 cites W2997734207 @default.
• W3201511377 cites W2999656933 @default.
• W3201511377 cites W3001412333 @default.
• W3201511377 cites W3003693006 @default.
• W3201511377 cites W3004805078 @default.
• W3201511377 cites W3016277851 @default.
• W3201511377 cites W3031677979 @default.
• W3201511377 cites W3036842271 @default.
• W3201511377 cites W3045902710 @default.
• W3201511377 cites W3047306897 @default.
• W3201511377 cites W3080496798 @default.
• W3201511377 cites W3092079676 @default.
• W3201511377 cites W3094554862 @default.
• W3201511377 cites W3116575581 @default.
• W3201511377 cites W3129420155 @default.
• W3201511377 cites W3131099326 @default.
• W3201511377 cites W3140549205 @default.
• W3201511377 cites W3152937649 @default.
• W3201511377 cites W3162876756 @default.
• W3201511377 cites W3163753207 @default.
• W3201511377 cites W3166848013 @default.
• W3201511377 cites W3168632503 @default.
• W3201511377 cites W3176264322 @default.
• W3201511377 cites W4244630217 @default.
• W3201511377 doi "https://doi.org/10.1016/j.ijhydene.2021.09.032" @default.
• W3201511377 hasPublicationYear "2021" @default.
• W3201511377 type Work @default.
• W3201511377 sameAs 3201511377 @default.
• W3201511377 citedByCount "9" @default.
• W3201511377 countsByYear W32015113772021 @default.
• W3201511377 countsByYear W32015113772022 @default.
• W3201511377 countsByYear W32015113772023 @default.
• W3201511377 crossrefType "journal-article" @default.

• next