SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3011173078> ?p ?o ?g. }

Showing items 1 to 100 of ±185 with 100 items per page.

W3011173078 endingPage "2773" @default.
W3011173078 startingPage "2764" @default.
W3011173078 abstract "Transition metal dichalcogenides (TMDCs) have garnered much attention recently due to their remarkable performance for different electrochemical systems. In this study, we report on the synthesis and catalysis of less studied TMDC nanoflakes (NFs) with a design space comprised of three transition metals (rhenium, ruthenium, and iridium) and three chalcogens (sulfur, selenium, and tellurium) for the oxygen reduction and evolution reactions (ORR and OER) in an aprotic hybrid electrolyte containing 0.1 M lithium bis(trifluoromethanesulfonyl)imide salt in 1-ethyl-3-methylimidazolium tetrafluoroborate ionic liquid and dimethyl sulfoxide. Our results indicate that among the tested catalysts, ReS2 exhibits the highest current density for both ORR and OER, beyond those of the state-of-the-art catalysts used in aprotic media with Li salts. We performed density functional calculations to provide a mechanistic understanding of the reactions in the ReS2 NFs/ionic liquid system. These novel bifunctional catalyst results could open a way for exploiting the unique properties of these materials in Li–O2 batteries as well as other important electrochemical systems." @default.
W3011173078 created "2020-03-23" @default.
W3011173078 creator A5014585812 @default.
W3011173078 creator A5019184137 @default.
W3011173078 creator A5023406864 @default.
W3011173078 creator A5037300903 @default.
W3011173078 creator A5048476585 @default.
W3011173078 creator A5048670971 @default.
W3011173078 creator A5049025719 @default.
W3011173078 creator A5049525828 @default.
W3011173078 creator A5052912774 @default.
W3011173078 creator A5058864798 @default.
W3011173078 creator A5062626839 @default.
W3011173078 creator A5075147971 @default.
W3011173078 creator A5078484198 @default.
W3011173078 date "2020-03-19" @default.
W3011173078 modified "2023-10-15" @default.
W3011173078 title "Highly Active Rhenium-, Ruthenium-, and Iridium-Based Dichalcogenide Electrocatalysts for Oxygen Reduction and Oxygen Evolution Reactions in Aprotic Media" @default.
W3011173078 cites W1562757684 @default.
W3011173078 cites W1649557601 @default.
W3011173078 cites W1965004023 @default.
W3011173078 cites W1965456035 @default.
W3011173078 cites W1971618779 @default.
W3011173078 cites W1972494209 @default.
W3011173078 cites W1974896731 @default.
W3011173078 cites W1984102281 @default.
W3011173078 cites W1987540747 @default.
W3011173078 cites W1991987111 @default.
W3011173078 cites W1993299640 @default.
W3011173078 cites W1998838629 @default.
W3011173078 cites W2002098506 @default.
W3011173078 cites W2007914452 @default.
W3011173078 cites W2009363882 @default.
W3011173078 cites W2010924650 @default.
W3011173078 cites W2011899447 @default.
W3011173078 cites W2011912574 @default.
W3011173078 cites W2012045837 @default.
W3011173078 cites W2014902795 @default.
W3011173078 cites W2023137992 @default.
W3011173078 cites W2039398209 @default.
W3011173078 cites W2041088325 @default.
W3011173078 cites W2043081799 @default.
W3011173078 cites W2048930900 @default.
W3011173078 cites W2084326735 @default.
W3011173078 cites W2087476905 @default.
W3011173078 cites W2088349487 @default.
W3011173078 cites W2088586552 @default.
W3011173078 cites W2092187102 @default.
W3011173078 cites W2099914389 @default.
W3011173078 cites W2111386302 @default.
W3011173078 cites W2119194808 @default.
W3011173078 cites W2135571158 @default.
W3011173078 cites W2147924720 @default.
W3011173078 cites W2164418111 @default.
W3011173078 cites W2169927944 @default.
W3011173078 cites W2194108512 @default.
W3011173078 cites W2272386505 @default.
W3011173078 cites W2301097666 @default.
W3011173078 cites W2305593855 @default.
W3011173078 cites W2315855324 @default.
W3011173078 cites W2317410292 @default.
W3011173078 cites W2323619647 @default.
W3011173078 cites W2331260692 @default.
W3011173078 cites W2332386396 @default.
W3011173078 cites W2344945207 @default.
W3011173078 cites W2345402337 @default.
W3011173078 cites W2400357184 @default.
W3011173078 cites W2483928127 @default.
W3011173078 cites W2487047777 @default.
W3011173078 cites W2548091145 @default.
W3011173078 cites W2559960727 @default.
W3011173078 cites W2562508401 @default.
W3011173078 cites W2563077487 @default.
W3011173078 cites W2564866958 @default.
W3011173078 cites W2569514616 @default.
W3011173078 cites W2581890205 @default.
W3011173078 cites W2605144062 @default.
W3011173078 cites W2605218219 @default.
W3011173078 cites W2627001981 @default.
W3011173078 cites W2743091977 @default.
W3011173078 cites W2789804135 @default.
W3011173078 cites W2792989624 @default.
W3011173078 cites W2794333952 @default.
W3011173078 cites W2886348572 @default.
W3011173078 cites W2900813059 @default.
W3011173078 cites W2903215180 @default.
W3011173078 cites W2911707816 @default.
W3011173078 cites W2969250325 @default.
W3011173078 cites W2973374598 @default.
W3011173078 cites W3099435374 @default.
W3011173078 doi "https://doi.org/10.1021/acs.chemmater.9b04117" @default.
W3011173078 hasPublicationYear "2020" @default.
W3011173078 type Work @default.
W3011173078 sameAs 3011173078 @default.
W3011173078 citedByCount "19" @default.
W3011173078 countsByYear W30111730782020 @default.
W3011173078 countsByYear W30111730782021 @default.
W3011173078 countsByYear W30111730782022 @default.