SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4376872986> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W4376872986 abstract "The development of cost-effective transition metal catalysts for oxygen evolution reaction (OER) is critical for the production of hydrogen fuel from water splitting. Low-cost and efficient stainless steel-based catalysts are expected to replace the scarce platinum group metals for large-scale energy applications. Here in this work, we report the conversion of commonly available inexpensive and easily accessible 434-L stainless steel (SS) into highly active and stable electrodes by corrosion and sulfuration strategies. The Nix Fe1-x S layer as a pre-catalyst and S-doped Nix Fe oxyhydroxides in situ formed on the catalyst surface are the true active species for OER. The optimized 434-L stainless steel-based electrocatalyst exhibits a low overpotential of 298 mV at 10 mA cm-2 in 1.0 M KOH with a small OER kinetics (the Tafel slope of 54.8 mV dec-1 ) and good stability. This work reveals the 434-L alloy stainless steel with Fe and Cr as the main elements can be used as qualified OER catalysts by surface modification, along with a new mentality to solve the energy and resource waste problems." @default.
W4376872986 created "2023-05-18" @default.
W4376872986 creator A5007549208 @default.
W4376872986 creator A5010015223 @default.
W4376872986 creator A5025337125 @default.
W4376872986 creator A5033205455 @default.
W4376872986 creator A5063245517 @default.
W4376872986 creator A5086802047 @default.
W4376872986 date "2023-07-05" @default.
W4376872986 modified "2023-10-14" @default.
W4376872986 title "Promoting Surface Reconstruction of Low‐Cost Stainless Steel Catalyst for Efficient Oxygen Evolution Reaction" @default.
W4376872986 cites W1928053355 @default.
W4376872986 cites W1981539053 @default.
W4376872986 cites W1982685288 @default.
W4376872986 cites W1986829915 @default.
W4376872986 cites W2098547240 @default.
W4376872986 cites W2130278856 @default.
W4376872986 cites W2279322979 @default.
W4376872986 cites W2295635702 @default.
W4376872986 cites W2302107358 @default.
W4376872986 cites W2437261131 @default.
W4376872986 cites W2556945605 @default.
W4376872986 cites W2561464652 @default.
W4376872986 cites W2575823937 @default.
W4376872986 cites W2593102719 @default.
W4376872986 cites W2606226281 @default.
W4376872986 cites W2756717556 @default.
W4376872986 cites W2759893893 @default.
W4376872986 cites W2767061991 @default.
W4376872986 cites W2773961580 @default.
W4376872986 cites W2777175624 @default.
W4376872986 cites W2786371797 @default.
W4376872986 cites W2787901841 @default.
W4376872986 cites W2788181819 @default.
W4376872986 cites W2790581786 @default.
W4376872986 cites W2792551382 @default.
W4376872986 cites W2794829639 @default.
W4376872986 cites W2810224848 @default.
W4376872986 cites W2888057071 @default.
W4376872986 cites W2898675514 @default.
W4376872986 cites W2900538279 @default.
W4376872986 cites W2913917319 @default.
W4376872986 cites W2929175818 @default.
W4376872986 cites W2947397661 @default.
W4376872986 cites W2957007786 @default.
W4376872986 cites W2973536416 @default.
W4376872986 cites W2982685093 @default.
W4376872986 cites W3015601754 @default.
W4376872986 cites W3017309771 @default.
W4376872986 cites W3023907424 @default.
W4376872986 cites W3027349813 @default.
W4376872986 cites W3029340322 @default.
W4376872986 cites W3034586408 @default.
W4376872986 cites W3136828326 @default.
W4376872986 cites W3154534621 @default.
W4376872986 cites W3170669158 @default.
W4376872986 cites W3176261431 @default.
W4376872986 cites W3184289626 @default.
W4376872986 cites W3210927889 @default.
W4376872986 cites W4200172601 @default.
W4376872986 cites W4205649153 @default.
W4376872986 cites W4206280939 @default.
W4376872986 cites W4210817188 @default.
W4376872986 cites W4211252054 @default.
W4376872986 cites W4220784247 @default.
W4376872986 cites W4221136217 @default.
W4376872986 cites W4225270266 @default.
W4376872986 cites W4280542211 @default.
W4376872986 cites W4281664624 @default.
W4376872986 cites W4281690069 @default.
W4376872986 cites W4283074052 @default.
W4376872986 doi "https://doi.org/10.1002/chem.202300741" @default.
W4376872986 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37195143" @default.
W4376872986 hasPublicationYear "2023" @default.
W4376872986 type Work @default.
W4376872986 citedByCount "0" @default.
W4376872986 crossrefType "journal-article" @default.
W4376872986 hasAuthorship W4376872986A5007549208 @default.
W4376872986 hasAuthorship W4376872986A5010015223 @default.
W4376872986 hasAuthorship W4376872986A5025337125 @default.
W4376872986 hasAuthorship W4376872986A5033205455 @default.
W4376872986 hasAuthorship W4376872986A5063245517 @default.
W4376872986 hasAuthorship W4376872986A5086802047 @default.
W4376872986 hasConcept C106773901 @default.
W4376872986 hasConcept C127413603 @default.
W4376872986 hasConcept C135473242 @default.
W4376872986 hasConcept C147789679 @default.
W4376872986 hasConcept C161790260 @default.
W4376872986 hasConcept C172404476 @default.
W4376872986 hasConcept C17525397 @default.
W4376872986 hasConcept C185592680 @default.
W4376872986 hasConcept C186460083 @default.
W4376872986 hasConcept C191897082 @default.
W4376872986 hasConcept C192562407 @default.
W4376872986 hasConcept C202189072 @default.
W4376872986 hasConcept C20625102 @default.
W4376872986 hasConcept C2780026712 @default.
W4376872986 hasConcept C33989665 @default.
W4376872986 hasConcept C35590869 @default.
W4376872986 hasConcept C42360764 @default.