SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3134267917> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W3134267917 abstract "Electrochemical CO 2 reduction reaction (e‐CO 2 RR) into high‐value chemicals is a promising approach for sustainable energy research, but there remains a great challenge to develop efficient and stable catalysts. Herein, in situ synthesized uniform Ag nanoparticles (AgNPs) directly growing on the surface of 2D graphdiyne (GDY) for selectively reducing CO 2 to CO with high efficiency and stability are reported. Due to the special electronic distribution of GDY, it not only serves as a template for the growth of AgNPs to prevent its aggregation, but also increases active sites and transformation of electrons through the intimate interaction between phase interface to enhance their cooperative catalytic effect, which highly improves the electrocatalytic performance of the nanocomposite. Through investigations, it is found that the Ag/GDY/CC nanocomposite electrochemically reduces CO 2 to CO with Faraday efficiency up to 92.1% and current density of 25.74 mA/cm 2 at the potential of −1.3 V versus reversible hydrogen electrode (RHE). Meanwhile, during catalysis, the Ag/GDY/CC composite maintains excellent stability with a high current density of ≈26 mA/cm 2 (threefold higher than that of Ag/CC), unchanged for over 24 h. To the best knowledge, herein, the first experimental study of an efficient CO 2 reduction electrocatalyst based on GDY is represented." @default.
W3134267917 created "2021-03-15" @default.
W3134267917 creator A5013617878 @default.
W3134267917 creator A5019852665 @default.
W3134267917 creator A5033105117 @default.
W3134267917 creator A5038767359 @default.
W3134267917 creator A5045761257 @default.
W3134267917 creator A5056232699 @default.
W3134267917 creator A5065137697 @default.
W3134267917 creator A5082453794 @default.
W3134267917 creator A5084063404 @default.
W3134267917 date "2021-05-05" @default.
W3134267917 modified "2023-10-15" @default.
W3134267917 title "Graphdiyne‐Stabilized Silver Nanoparticles as an Efficient Electrocatalyst for CO <sub>2</sub> Reduction" @default.
W3134267917 cites W1967883617 @default.
W3134267917 cites W2060441729 @default.
W3134267917 cites W2150135394 @default.
W3134267917 cites W2339405166 @default.
W3134267917 cites W2523356004 @default.
W3134267917 cites W2559879476 @default.
W3134267917 cites W2560046959 @default.
W3134267917 cites W2560335630 @default.
W3134267917 cites W2568267126 @default.
W3134267917 cites W2732575804 @default.
W3134267917 cites W2743017297 @default.
W3134267917 cites W2767499538 @default.
W3134267917 cites W2790174388 @default.
W3134267917 cites W2797324582 @default.
W3134267917 cites W2799765175 @default.
W3134267917 cites W2799852275 @default.
W3134267917 cites W2807452647 @default.
W3134267917 cites W2809811687 @default.
W3134267917 cites W2883885113 @default.
W3134267917 cites W2884184120 @default.
W3134267917 cites W2896191397 @default.
W3134267917 cites W2903902748 @default.
W3134267917 cites W2904379531 @default.
W3134267917 cites W2911247520 @default.
W3134267917 cites W2914071974 @default.
W3134267917 cites W2917563620 @default.
W3134267917 cites W2919435044 @default.
W3134267917 cites W2923854447 @default.
W3134267917 cites W2939858159 @default.
W3134267917 cites W2946533043 @default.
W3134267917 cites W2946947108 @default.
W3134267917 cites W2955896616 @default.
W3134267917 cites W2963758619 @default.
W3134267917 cites W2964386462 @default.
W3134267917 cites W2965092797 @default.
W3134267917 cites W2965193464 @default.
W3134267917 cites W2965786149 @default.
W3134267917 cites W2967889738 @default.
W3134267917 cites W2968013222 @default.
W3134267917 cites W2971733835 @default.
W3134267917 cites W2972630329 @default.
W3134267917 cites W2972898496 @default.
W3134267917 cites W2974053990 @default.
W3134267917 cites W2981822074 @default.
W3134267917 cites W2988600308 @default.
W3134267917 cites W2990647056 @default.
W3134267917 cites W2990950642 @default.
W3134267917 cites W2995730492 @default.
W3134267917 cites W2997666266 @default.
W3134267917 cites W3001270761 @default.
W3134267917 cites W3004507696 @default.
W3134267917 cites W3009041407 @default.
W3134267917 cites W3011213207 @default.
W3134267917 cites W3013732797 @default.
W3134267917 cites W3014036038 @default.
W3134267917 cites W3018229495 @default.
W3134267917 cites W3018570881 @default.
W3134267917 cites W3023777545 @default.
W3134267917 cites W3023975572 @default.
W3134267917 cites W3025417408 @default.
W3134267917 cites W3036977132 @default.
W3134267917 cites W3039586537 @default.
W3134267917 cites W3046491985 @default.
W3134267917 cites W3047566909 @default.
W3134267917 cites W3048258011 @default.
W3134267917 cites W3083136591 @default.
W3134267917 cites W3083400619 @default.
W3134267917 cites W3094006271 @default.
W3134267917 cites W3095682119 @default.
W3134267917 cites W3113279249 @default.
W3134267917 doi "https://doi.org/10.1002/aesr.202100037" @default.
W3134267917 hasPublicationYear "2021" @default.
W3134267917 type Work @default.
W3134267917 sameAs 3134267917 @default.
W3134267917 citedByCount "5" @default.
W3134267917 countsByYear W31342679172022 @default.
W3134267917 countsByYear W31342679172023 @default.
W3134267917 crossrefType "journal-article" @default.
W3134267917 hasAuthorship W3134267917A5013617878 @default.
W3134267917 hasAuthorship W3134267917A5019852665 @default.
W3134267917 hasAuthorship W3134267917A5033105117 @default.
W3134267917 hasAuthorship W3134267917A5038767359 @default.
W3134267917 hasAuthorship W3134267917A5045761257 @default.
W3134267917 hasAuthorship W3134267917A5056232699 @default.
W3134267917 hasAuthorship W3134267917A5065137697 @default.
W3134267917 hasAuthorship W3134267917A5082453794 @default.