SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2891827737> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2891827737 endingPage "2532" @default.
W2891827737 startingPage "2527" @default.
W2891827737 abstract "The promise and challenge of electrochemical mitigation of CO2 calls for innovations on both catalyst and reactor levels. In this work, enabled by our high-performance and earth-abundant CO2 electroreduction catalyst materials, we developed alkaline microflow electrolytic cells for energy-efficient, selective, fast, and durable CO2 conversion to CO and HCOO–. With a cobalt phthalocyanine-based cathode catalyst, the CO-selective cell starts to operate at a 0.26 V overpotential and reaches a Faradaic efficiency of 94% and a partial current density of 31 mA/cm2 at a 0.56 V overpotential. With a SnO2-based cathode catalyst, the HCOO–-selective cell starts to operate at a 0.76 V overpotential and reaches a Faradaic efficiency of 82% and a partial current density of 113 mA/cm2 at a 1.36 V overpotential. In contrast to previous studies, we found that the overpotential reduction from using the alkaline electrolyte is mostly contributed by a pH gradient near the cathode surface." @default.
W2891827737 created "2018-09-27" @default.
W2891827737 creator A5001451383 @default.
W2891827737 creator A5020520113 @default.
W2891827737 creator A5029051499 @default.
W2891827737 creator A5029941351 @default.
W2891827737 creator A5034566027 @default.
W2891827737 creator A5038012476 @default.
W2891827737 creator A5052874755 @default.
W2891827737 creator A5083349849 @default.
W2891827737 date "2018-09-18" @default.
W2891827737 modified "2023-10-14" @default.
W2891827737 title "High-Performance Electrochemical CO<sub>2</sub> Reduction Cells Based on Non-noble Metal Catalysts" @default.
W2891827737 cites W1602777355 @default.
W2891827737 cites W1985778735 @default.
W2891827737 cites W1992591486 @default.
W2891827737 cites W1999702197 @default.
W2891827737 cites W2011564123 @default.
W2891827737 cites W2019068058 @default.
W2891827737 cites W2037909447 @default.
W2891827737 cites W2063031338 @default.
W2891827737 cites W2088958220 @default.
W2891827737 cites W2093193003 @default.
W2891827737 cites W2093202328 @default.
W2891827737 cites W2105840275 @default.
W2891827737 cites W2118228274 @default.
W2891827737 cites W2176450043 @default.
W2891827737 cites W2312983667 @default.
W2891827737 cites W2340908997 @default.
W2891827737 cites W2345798888 @default.
W2891827737 cites W2438990463 @default.
W2891827737 cites W2470552650 @default.
W2891827737 cites W2522135447 @default.
W2891827737 cites W2557778878 @default.
W2891827737 cites W2569888948 @default.
W2891827737 cites W2573313258 @default.
W2891827737 cites W2573377826 @default.
W2891827737 cites W2578967457 @default.
W2891827737 cites W2586675271 @default.
W2891827737 cites W2587734680 @default.
W2891827737 cites W2591654700 @default.
W2891827737 cites W2596465153 @default.
W2891827737 cites W2604945037 @default.
W2891827737 cites W2738629485 @default.
W2891827737 cites W2744041750 @default.
W2891827737 cites W2747998131 @default.
W2891827737 cites W2767984731 @default.
W2891827737 cites W2771065863 @default.
W2891827737 cites W2776913936 @default.
W2891827737 cites W2782655294 @default.
W2891827737 cites W2790006205 @default.
W2891827737 cites W2790215394 @default.
W2891827737 cites W2790797644 @default.
W2891827737 cites W2795676722 @default.
W2891827737 cites W2796245121 @default.
W2891827737 cites W2798038136 @default.
W2891827737 cites W2805899971 @default.
W2891827737 doi "https://doi.org/10.1021/acsenergylett.8b01681" @default.
W2891827737 hasPublicationYear "2018" @default.
W2891827737 type Work @default.
W2891827737 sameAs 2891827737 @default.
W2891827737 citedByCount "79" @default.
W2891827737 countsByYear W28918277372018 @default.
W2891827737 countsByYear W28918277372019 @default.
W2891827737 countsByYear W28918277372020 @default.
W2891827737 countsByYear W28918277372021 @default.
W2891827737 countsByYear W28918277372022 @default.
W2891827737 countsByYear W28918277372023 @default.
W2891827737 crossrefType "journal-article" @default.
W2891827737 hasAuthorship W2891827737A5001451383 @default.
W2891827737 hasAuthorship W2891827737A5020520113 @default.
W2891827737 hasAuthorship W2891827737A5029051499 @default.
W2891827737 hasAuthorship W2891827737A5029941351 @default.
W2891827737 hasAuthorship W2891827737A5034566027 @default.
W2891827737 hasAuthorship W2891827737A5038012476 @default.
W2891827737 hasAuthorship W2891827737A5052874755 @default.
W2891827737 hasAuthorship W2891827737A5083349849 @default.
W2891827737 hasBestOaLocation W28918277372 @default.
W2891827737 hasConcept C111335779 @default.
W2891827737 hasConcept C127413603 @default.
W2891827737 hasConcept C147789679 @default.
W2891827737 hasConcept C161790260 @default.
W2891827737 hasConcept C171250308 @default.
W2891827737 hasConcept C17525397 @default.
W2891827737 hasConcept C179104552 @default.
W2891827737 hasConcept C185592680 @default.
W2891827737 hasConcept C191897082 @default.
W2891827737 hasConcept C192562407 @default.
W2891827737 hasConcept C2524010 @default.
W2891827737 hasConcept C2775871042 @default.
W2891827737 hasConcept C33923547 @default.
W2891827737 hasConcept C42360764 @default.
W2891827737 hasConcept C52859227 @default.
W2891827737 hasConcept C544153396 @default.
W2891827737 hasConcept C55493867 @default.
W2891827737 hasConceptScore W2891827737C111335779 @default.
W2891827737 hasConceptScore W2891827737C127413603 @default.
W2891827737 hasConceptScore W2891827737C147789679 @default.