SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4353045590> ?p ?o ?g. }

Showing items 1 to 100 of ±171 with 100 items per page.

W4353045590 endingPage "021001" @default.
W4353045590 startingPage "021001" @default.
W4353045590 abstract "Abstract Water electrolysis has attracted significant attention for large-scale production of green hydrogen as next-generation clean fuels. Recently, the development of graphdiyne (GDY), a new member of carbon allotropes, has been promisingly offering novel alternatives for acquisition of inexpensive and efficient catalysts in the water electrolyzer. The unique atomic arrangement in GDY architecture leads to coexistence of sp– and sp2–C, correspondingly brings numerous intriguing features such as heterogeneous electron distribution, wide tailorable natural bandgap, rapid electron/mass transport and rich chemical bonds. These unique intrinsic natures of GDY provide brilliant inspirations for scientists to design new-concept electrocatalyst toward cathodic hydrogen evolution reaction, anodic oxygen evolution reaction and the overall water-splitting. Based on the immense progress, in this short perspective, current principal design strategies of GDY-based catalysts are systematically summarized, including interface engineering, individual atom fixation, induced constrained growth and bottom-up fabrication. With abundant implementation examples for achieving highly efficient water electrolysis, in particular we focus on clarifying the decisive role of GDY on these design strategies with comprehensive theoretical and experimental evidences. The future direction in developing GDY-based electrocatalysts in hydrogen energy field is also depicted with the urgent anticipation of deeper understanding of structure-performance relationship and catalytic mechanism, especially those in real industry water electrolyzers." @default.
W4353045590 created "2023-03-23" @default.
W4353045590 creator A5000339752 @default.
W4353045590 creator A5024356442 @default.
W4353045590 creator A5028403776 @default.
W4353045590 creator A5031776103 @default.
W4353045590 creator A5043070856 @default.
W4353045590 creator A5056161767 @default.
W4353045590 date "2023-04-01" @default.
W4353045590 modified "2023-09-26" @default.
W4353045590 title "Principal strategies for designing graphdiyne-based catalyst toward green hydrogen production from water electrolysis" @default.
W4353045590 cites W11476871 @default.
W4353045590 cites W1967883617 @default.
W4353045590 cites W1971113415 @default.
W4353045590 cites W2018858346 @default.
W4353045590 cites W2037545711 @default.
W4353045590 cites W2048116550 @default.
W4353045590 cites W2058122340 @default.
W4353045590 cites W2102688528 @default.
W4353045590 cites W2134716155 @default.
W4353045590 cites W2146349866 @default.
W4353045590 cites W2295326161 @default.
W4353045590 cites W2319267455 @default.
W4353045590 cites W2545997748 @default.
W4353045590 cites W2561562898 @default.
W4353045590 cites W2731269093 @default.
W4353045590 cites W2765468456 @default.
W4353045590 cites W2771071651 @default.
W4353045590 cites W2774554063 @default.
W4353045590 cites W2790174388 @default.
W4353045590 cites W2790466516 @default.
W4353045590 cites W2793405511 @default.
W4353045590 cites W2797324582 @default.
W4353045590 cites W2804952335 @default.
W4353045590 cites W2805166422 @default.
W4353045590 cites W2805542846 @default.
W4353045590 cites W2883885113 @default.
W4353045590 cites W2884268322 @default.
W4353045590 cites W2888201995 @default.
W4353045590 cites W2891353337 @default.
W4353045590 cites W2893795324 @default.
W4353045590 cites W2898893374 @default.
W4353045590 cites W2903902748 @default.
W4353045590 cites W2904379531 @default.
W4353045590 cites W2910796138 @default.
W4353045590 cites W2913963325 @default.
W4353045590 cites W2914489380 @default.
W4353045590 cites W2917563620 @default.
W4353045590 cites W2917858626 @default.
W4353045590 cites W2919435044 @default.
W4353045590 cites W2921390940 @default.
W4353045590 cites W2945238072 @default.
W4353045590 cites W2947393453 @default.
W4353045590 cites W2952547635 @default.
W4353045590 cites W2960701216 @default.
W4353045590 cites W2963982896 @default.
W4353045590 cites W2994814444 @default.
W4353045590 cites W2996190469 @default.
W4353045590 cites W3005477756 @default.
W4353045590 cites W3006082317 @default.
W4353045590 cites W3009041407 @default.
W4353045590 cites W3009936113 @default.
W4353045590 cites W3023777545 @default.
W4353045590 cites W3027144168 @default.
W4353045590 cites W3048898510 @default.
W4353045590 cites W3081665507 @default.
W4353045590 cites W3103013862 @default.
W4353045590 cites W3118491621 @default.
W4353045590 cites W3119797550 @default.
W4353045590 cites W3128340406 @default.
W4353045590 cites W3129637615 @default.
W4353045590 cites W3135237891 @default.
W4353045590 cites W3135359461 @default.
W4353045590 cites W3136719147 @default.
W4353045590 cites W3138936476 @default.
W4353045590 cites W3157665187 @default.
W4353045590 cites W3166778845 @default.
W4353045590 cites W3174508643 @default.
W4353045590 cites W3196296017 @default.
W4353045590 cites W3198667909 @default.
W4353045590 cites W4200613891 @default.
W4353045590 cites W4210696125 @default.
W4353045590 cites W4211035986 @default.
W4353045590 cites W4220864056 @default.
W4353045590 cites W4221074508 @default.
W4353045590 cites W4223974605 @default.
W4353045590 cites W4224044785 @default.
W4353045590 cites W4225580424 @default.
W4353045590 cites W4283784290 @default.
W4353045590 cites W4284968791 @default.
W4353045590 cites W4288060904 @default.
W4353045590 cites W4292366100 @default.
W4353045590 cites W4293485572 @default.
W4353045590 cites W4293693574 @default.
W4353045590 cites W4294636568 @default.
W4353045590 doi "https://doi.org/10.1088/2515-7655/acc68d" @default.
W4353045590 hasPublicationYear "2023" @default.
W4353045590 type Work @default.