SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2936354680> ?p ?o ?g. }

Showing items 1 to 100 of ±149 with 100 items per page.

W2936354680 endingPage "13309" @default.
W2936354680 startingPage "13296" @default.
W2936354680 abstract "In this study, porous NiCu coating was applied on Ni foam and electrocatalytic activity for hydrogen evolution reaction was studied using the simulation method. In order to optimize the electrocatalytic activity of the fabricated coating on the Ni foam, the experiment was designed using the response surface methodology (RSM). The results demonstrated that in the optimal condition, the porous NiCu electrode requires only 203 and 310 mV vs. RHE overpotentials at the current densities of 10 and 100 mA cm−2, respectively. In addition, the Tafel slope was 88.2 mV dec−1 and the electrochemically active surface area was about 1790 cm2. Moreover, the porous NiCu catalyst depicted favorable electrocatalytic durability and affords long-term electrolysis without activity degradation. This high electrocatalytic activity and stability of coating can be attributed to the active surface area due to porous structure growth, rapid separation of hydrogen gas bubbles and the synergistic effect between Ni and Cu. This study offers an effective fabrication method for three-dimensional electrodes for renewable energy resources." @default.
W2936354680 created "2019-04-25" @default.
W2936354680 creator A5005131463 @default.
W2936354680 creator A5012703282 @default.
W2936354680 creator A5026920113 @default.
W2936354680 creator A5078046412 @default.
W2936354680 date "2019-05-01" @default.
W2936354680 modified "2023-09-25" @default.
W2936354680 title "Simulation and characterization of hydrogen evolution reaction on porous Ni Cu electrode using surface response methodology" @default.
W2936354680 cites W1651779819 @default.
W2936354680 cites W1681419128 @default.
W2936354680 cites W1964778061 @default.
W2936354680 cites W1973437246 @default.
W2936354680 cites W1978526482 @default.
W2936354680 cites W1985622385 @default.
W2936354680 cites W1989696360 @default.
W2936354680 cites W1999363791 @default.
W2936354680 cites W2000886492 @default.
W2936354680 cites W2001063720 @default.
W2936354680 cites W2004316221 @default.
W2936354680 cites W2005200397 @default.
W2936354680 cites W2008889244 @default.
W2936354680 cites W2016732991 @default.
W2936354680 cites W2018382364 @default.
W2936354680 cites W2019008840 @default.
W2936354680 cites W2019596303 @default.
W2936354680 cites W2022916638 @default.
W2936354680 cites W2024239620 @default.
W2936354680 cites W2025128356 @default.
W2936354680 cites W2029097926 @default.
W2936354680 cites W2029213898 @default.
W2936354680 cites W2033507953 @default.
W2936354680 cites W2040928494 @default.
W2936354680 cites W2041924800 @default.
W2936354680 cites W2045982730 @default.
W2936354680 cites W2046434706 @default.
W2936354680 cites W2053109537 @default.
W2936354680 cites W2055532026 @default.
W2936354680 cites W2062788083 @default.
W2936354680 cites W2062980281 @default.
W2936354680 cites W2071495252 @default.
W2936354680 cites W2071639235 @default.
W2936354680 cites W2072845452 @default.
W2936354680 cites W2078027767 @default.
W2936354680 cites W2078966241 @default.
W2936354680 cites W2079436950 @default.
W2936354680 cites W2082933392 @default.
W2936354680 cites W2083538490 @default.
W2936354680 cites W2087797252 @default.
W2936354680 cites W2092977423 @default.
W2936354680 cites W2096970027 @default.
W2936354680 cites W2124312198 @default.
W2936354680 cites W2168122574 @default.
W2936354680 cites W2290467907 @default.
W2936354680 cites W2318420672 @default.
W2936354680 cites W2512171446 @default.
W2936354680 cites W2535512188 @default.
W2936354680 cites W2573918823 @default.
W2936354680 cites W2590695988 @default.
W2936354680 cites W2611779841 @default.
W2936354680 cites W2612821450 @default.
W2936354680 cites W2623637742 @default.
W2936354680 cites W2763845288 @default.
W2936354680 cites W2767150615 @default.
W2936354680 cites W2791733485 @default.
W2936354680 cites W2893406023 @default.
W2936354680 cites W2894538868 @default.
W2936354680 cites W2896545058 @default.
W2936354680 cites W2907566313 @default.
W2936354680 cites W2914655692 @default.
W2936354680 cites W1673627867 @default.
W2936354680 doi "https://doi.org/10.1016/j.ijhydene.2019.03.208" @default.
W2936354680 hasPublicationYear "2019" @default.
W2936354680 type Work @default.
W2936354680 sameAs 2936354680 @default.
W2936354680 citedByCount "21" @default.
W2936354680 countsByYear W29363546802019 @default.
W2936354680 countsByYear W29363546802020 @default.
W2936354680 countsByYear W29363546802021 @default.
W2936354680 countsByYear W29363546802022 @default.
W2936354680 countsByYear W29363546802023 @default.
W2936354680 crossrefType "journal-article" @default.
W2936354680 hasAuthorship W2936354680A5005131463 @default.
W2936354680 hasAuthorship W2936354680A5012703282 @default.
W2936354680 hasAuthorship W2936354680A5026920113 @default.
W2936354680 hasAuthorship W2936354680A5078046412 @default.
W2936354680 hasConcept C127413603 @default.
W2936354680 hasConcept C147789679 @default.
W2936354680 hasConcept C159985019 @default.
W2936354680 hasConcept C161790260 @default.
W2936354680 hasConcept C163127949 @default.
W2936354680 hasConcept C171250308 @default.
W2936354680 hasConcept C172404476 @default.
W2936354680 hasConcept C17525397 @default.
W2936354680 hasConcept C178790620 @default.
W2936354680 hasConcept C185592680 @default.
W2936354680 hasConcept C192562407 @default.
W2936354680 hasConcept C202189072 @default.