SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313489999> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W4313489999 endingPage "2203158" @default.
W4313489999 startingPage "2203158" @default.
W4313489999 abstract "The economic viability of carbon dioxide electroreduction (CO2R) relies on improved performance accompanied by scalable system design. Membranes are commonly used for the separation of reduction and oxidation products as well as to provide a suitable micro-environment for CO2R. Commercial membranes often address only one of the key challenges in CO2R: either they offer a suitable micro-environment for CO2R (e.g., anion exchange membrane) or suppress carbonate cross-over (e.g., cation exchange membrane and bipolar membrane). This work presents a cation-infused ultrathin (≈3 µm) solid polymer electrolyte (CISPE) that concomitantly addresses both challenges via a bidirectional ion transport mechanism and suppressed cathode flooding. This directly-deposited CISPE (that substitutes the commonly used pre-made membrane) enables record high full-cell energy efficiency of 28% at 100 mA cm−2 for one-step CO2 electrolysis to ethylene (C2H4) with ≈110 h of stable operation. This translates into a record low energy cost of 290 GJ per ton C2H4 for the end-to-end process (i.e., CO2 capture and electroreduction, carbonate regeneration, CO2 separation from anode and cathode streams) in a membrane electrode assembly CO2R. The present work offers a versatile design paradigm for functional polymer electrolytes, opening the door to stable, and efficient electrolysis of high-value feedstock chemicals and fuels using low-cost catalysts." @default.
W4313489999 created "2023-01-06" @default.
W4313489999 creator A5011750802 @default.
W4313489999 creator A5024153751 @default.
W4313489999 creator A5054125941 @default.
W4313489999 creator A5071203438 @default.
W4313489999 creator A5072919054 @default.
W4313489999 creator A5076025318 @default.
W4313489999 creator A5082565730 @default.
W4313489999 creator A5088830864 @default.
W4313489999 date "2023-01-04" @default.
W4313489999 modified "2023-10-17" @default.
W4313489999 title "Directly‐Deposited Ultrathin Solid Polymer Electrolyte for Enhanced CO <sub>2</sub> Electrolysis" @default.
W4313489999 cites W1967684338 @default.
W4313489999 cites W1993024746 @default.
W4313489999 cites W1999186005 @default.
W4313489999 cites W2082259857 @default.
W4313489999 cites W2092147481 @default.
W4313489999 cites W2177586106 @default.
W4313489999 cites W2468897974 @default.
W4313489999 cites W2533669921 @default.
W4313489999 cites W2580954066 @default.
W4313489999 cites W2738629485 @default.
W4313489999 cites W2770262588 @default.
W4313489999 cites W2779986708 @default.
W4313489999 cites W2887595360 @default.
W4313489999 cites W2890912281 @default.
W4313489999 cites W2902607515 @default.
W4313489999 cites W2904098975 @default.
W4313489999 cites W2906783778 @default.
W4313489999 cites W2944363160 @default.
W4313489999 cites W2944826525 @default.
W4313489999 cites W2945906714 @default.
W4313489999 cites W2947234294 @default.
W4313489999 cites W2953798946 @default.
W4313489999 cites W2969819714 @default.
W4313489999 cites W2979765932 @default.
W4313489999 cites W2989693584 @default.
W4313489999 cites W2995963065 @default.
W4313489999 cites W2996755838 @default.
W4313489999 cites W3005205992 @default.
W4313489999 cites W3008544630 @default.
W4313489999 cites W3012333753 @default.
W4313489999 cites W3020406524 @default.
W4313489999 cites W3023591493 @default.
W4313489999 cites W3025836311 @default.
W4313489999 cites W3040399454 @default.
W4313489999 cites W3048141026 @default.
W4313489999 cites W3049092354 @default.
W4313489999 cites W3087068950 @default.
W4313489999 cites W3092771172 @default.
W4313489999 cites W3100243995 @default.
W4313489999 cites W3108682482 @default.
W4313489999 cites W3113208759 @default.
W4313489999 cites W3118309275 @default.
W4313489999 cites W3127623051 @default.
W4313489999 cites W3128945229 @default.
W4313489999 cites W3137194994 @default.
W4313489999 cites W3155117372 @default.
W4313489999 cites W3160603623 @default.
W4313489999 cites W3161602498 @default.
W4313489999 cites W3165555416 @default.
W4313489999 cites W3178725978 @default.
W4313489999 cites W3183385567 @default.
W4313489999 cites W3192152888 @default.
W4313489999 cites W3192317799 @default.
W4313489999 cites W3202149903 @default.
W4313489999 cites W3204152415 @default.
W4313489999 cites W3213335917 @default.
W4313489999 cites W3214142170 @default.
W4313489999 cites W4200184261 @default.
W4313489999 cites W4205244501 @default.
W4313489999 cites W4206203090 @default.
W4313489999 cites W4210457633 @default.
W4313489999 cites W4225484956 @default.
W4313489999 cites W4281477020 @default.
W4313489999 cites W4284961653 @default.
W4313489999 cites W4285149582 @default.
W4313489999 doi "https://doi.org/10.1002/aenm.202203158" @default.
W4313489999 hasPublicationYear "2023" @default.
W4313489999 type Work @default.
W4313489999 citedByCount "6" @default.
W4313489999 countsByYear W43134899992023 @default.
W4313489999 crossrefType "journal-article" @default.
W4313489999 hasAuthorship W4313489999A5011750802 @default.
W4313489999 hasAuthorship W4313489999A5024153751 @default.
W4313489999 hasAuthorship W4313489999A5054125941 @default.
W4313489999 hasAuthorship W4313489999A5071203438 @default.
W4313489999 hasAuthorship W4313489999A5072919054 @default.
W4313489999 hasAuthorship W4313489999A5076025318 @default.
W4313489999 hasAuthorship W4313489999A5082565730 @default.
W4313489999 hasAuthorship W4313489999A5088830864 @default.
W4313489999 hasConcept C127413603 @default.
W4313489999 hasConcept C147789679 @default.
W4313489999 hasConcept C159985019 @default.
W4313489999 hasConcept C163127949 @default.
W4313489999 hasConcept C171250308 @default.
W4313489999 hasConcept C17525397 @default.