FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2946075648> ?p ?o ?g. }

• W2946075648 endingPage "97" @default.
• W2946075648 startingPage "92" @default.
• W2946075648 abstract "Metal–organic frameworks (MOFs) have been widely used in the field of electrocatalysis in recent years. In most reports, an MOF is used as a sacrificial template to prepare a highly efficient electrocatalyst by calcination. Here, a series of FeNi bimetallic MIL-101 materials has been synthesized by a solvothermal method and directly applied for the oxygen evolution reaction (OER). These MOFs contain a large number of catalytically active MO6 octahedra and exposed hydrophilic carboxyl groups, which are believed to enhance OER activity. In addition, after the introduction of Ni, the catalytic activity is significantly improved by synergy between the metals. Among the studied compositions, Fe2Ni-MIL-101 showed the best OER performance, requiring a low overpotential of just 237 mV to drive a current density of 20 mA cm−2 in 1 m KOH solution, corresponding to a low Tafel slope of 44.2 mV dec−1. Moreover, the electrochemical properties remained virtually unchanged during a 40-h long-term stability test. These findings enrich the application of MOFs materials in the field of electrocatalysis." @default.
• W2946075648 created "2019-05-29" @default.
• W2946075648 creator A5001281049 @default.
• W2946075648 creator A5014181888 @default.
• W2946075648 creator A5028293201 @default.
• W2946075648 creator A5030863883 @default.
• W2946075648 creator A5057726810 @default.
• W2946075648 creator A5063352338 @default.
• W2946075648 date "2019-09-01" @default.
• W2946075648 modified "2023-10-16" @default.
• W2946075648 title "FeNi-based bimetallic MIL-101 directly applicable as an efficient electrocatalyst for oxygen evolution reaction" @default.
• W2946075648 cites W1426612521 @default.
• W2946075648 cites W1966907445 @default.
• W2946075648 cites W1989703096 @default.
• W2946075648 cites W1993054776 @default.
• W2946075648 cites W1993822723 @default.
• W2946075648 cites W1996352962 @default.
• W2946075648 cites W2011715705 @default.
• W2946075648 cites W2013377356 @default.
• W2946075648 cites W2030489223 @default.
• W2946075648 cites W2035300989 @default.
• W2946075648 cites W2041777058 @default.
• W2946075648 cites W2048407205 @default.
• W2946075648 cites W2058916144 @default.
• W2946075648 cites W2064804729 @default.
• W2946075648 cites W2076968595 @default.
• W2946075648 cites W2089947893 @default.
• W2946075648 cites W2127803563 @default.
• W2946075648 cites W2130140289 @default.
• W2946075648 cites W2133355241 @default.
• W2946075648 cites W2152384412 @default.
• W2946075648 cites W2160191736 @default.
• W2946075648 cites W2160437447 @default.
• W2946075648 cites W2179366923 @default.
• W2946075648 cites W2230127221 @default.
• W2946075648 cites W2275668944 @default.
• W2946075648 cites W2323275360 @default.
• W2946075648 cites W2328064830 @default.
• W2946075648 cites W2328832782 @default.
• W2946075648 cites W2411919296 @default.
• W2946075648 cites W2417385119 @default.
• W2946075648 cites W2437261131 @default.
• W2946075648 cites W2473591459 @default.
• W2946075648 cites W2531080479 @default.
• W2946075648 cites W2550657007 @default.
• W2946075648 cites W2553823381 @default.
• W2946075648 cites W2557979230 @default.
• W2946075648 cites W2592797634 @default.
• W2946075648 cites W2599167410 @default.
• W2946075648 cites W2603104617 @default.
• W2946075648 cites W2621780300 @default.
• W2946075648 cites W2626023833 @default.
• W2946075648 cites W2745225728 @default.
• W2946075648 cites W2749119548 @default.
• W2946075648 cites W2764306018 @default.
• W2946075648 cites W2802460418 @default.
• W2946075648 cites W4243316637 @default.
• W2946075648 cites W4247433847 @default.
• W2946075648 cites W4254144172 @default.
• W2946075648 cites W4255714022 @default.
• W2946075648 cites W4256207320 @default.
• W2946075648 doi "https://doi.org/10.1016/j.micromeso.2019.05.040" @default.
• W2946075648 hasPublicationYear "2019" @default.
• W2946075648 type Work @default.
• W2946075648 sameAs 2946075648 @default.
• W2946075648 citedByCount "30" @default.
• W2946075648 countsByYear W29460756482020 @default.
• W2946075648 countsByYear W29460756482021 @default.
• W2946075648 countsByYear W29460756482022 @default.
• W2946075648 countsByYear W29460756482023 @default.
• W2946075648 crossrefType "journal-article" @default.
• W2946075648 hasAuthorship W2946075648A5001281049 @default.
• W2946075648 hasAuthorship W2946075648A5014181888 @default.
• W2946075648 hasAuthorship W2946075648A5028293201 @default.
• W2946075648 hasAuthorship W2946075648A5030863883 @default.
• W2946075648 hasAuthorship W2946075648A5057726810 @default.
• W2946075648 hasAuthorship W2946075648A5063352338 @default.
• W2946075648 hasConcept C127413603 @default.
• W2946075648 hasConcept C135473242 @default.
• W2946075648 hasConcept C147789679 @default.
• W2946075648 hasConcept C161790260 @default.
• W2946075648 hasConcept C171250308 @default.
• W2946075648 hasConcept C172404476 @default.
• W2946075648 hasConcept C17525397 @default.
• W2946075648 hasConcept C178790620 @default.
• W2946075648 hasConcept C179104552 @default.
• W2946075648 hasConcept C185592680 @default.
• W2946075648 hasConcept C186460083 @default.
• W2946075648 hasConcept C192562407 @default.
• W2946075648 hasConcept C33989665 @default.
• W2946075648 hasConcept C42360764 @default.
• W2946075648 hasConcept C43411465 @default.
• W2946075648 hasConcept C52859227 @default.
• W2946075648 hasConcept C7082614 @default.
• W2946075648 hasConceptScore W2946075648C127413603 @default.
• W2946075648 hasConceptScore W2946075648C135473242 @default.
• W2946075648 hasConceptScore W2946075648C147789679 @default.
• W2946075648 hasConceptScore W2946075648C161790260 @default.

• next