SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2774504611> ?p ?o ?g. }

Showing items 1 to 100 of ±159 with 100 items per page.

W2774504611 endingPage "617" @default.
W2774504611 startingPage "609" @default.
W2774504611 abstract "The lack of cost-efficient catalysts for the electrooxidation of fuel in the anodic electrode has been a major barrier for the practical large-scale commercial application and hence needs to be optimized. Tuning the morphologies and structures of Pt-based bimetallic nanostructure plays a key role in controlling its interaction with reactants, and thus affects its electrocatalytic efficiency. In this regard, endowing the nanocatalysts with both of high surface active areas and controlled facets through modifying their surface compositions and morphologies can significantly enhance their electrocatalytic performances. To this end, we herein demonstrate a facile wet-chemical method to successfully construct the N-doped graphene supported hollow PtAg nanodendrites under the assistance of ultrasonic treatment. More importantly, the resulting N-doped graphene supported hollow PtAg nanodendrites show high performance for the electrooxidation of formic acid with the mass and specific activities of 1258.5 mA mg–1 and 6.14 mA cm–2, 3.77 and 1.57-fold enhancements than those of commercial Pt/C, respectively. It is believed that the as-prepared nanomaterials can be well-applied to serve as the highly efficient anode electrocatalysts for the commercial application of fuel cells and beyond." @default.
W2774504611 created "2017-12-22" @default.
W2774504611 creator A5008267939 @default.
W2774504611 creator A5008668835 @default.
W2774504611 creator A5018244700 @default.
W2774504611 creator A5034581450 @default.
W2774504611 creator A5035062625 @default.
W2774504611 creator A5054719997 @default.
W2774504611 creator A5090258117 @default.
W2774504611 date "2017-12-12" @default.
W2774504611 modified "2023-10-13" @default.
W2774504611 title "Facile Construction of N-Doped Graphene Supported Hollow PtAg Nanodendrites as Highly Efficient Electrocatalysts toward Formic Acid Oxidation Reaction" @default.
W2774504611 cites W1439420082 @default.
W2774504611 cites W1921323085 @default.
W2774504611 cites W1976590074 @default.
W2774504611 cites W1984426359 @default.
W2774504611 cites W1988032142 @default.
W2774504611 cites W1998981950 @default.
W2774504611 cites W2006435930 @default.
W2774504611 cites W2007700244 @default.
W2774504611 cites W2023967155 @default.
W2774504611 cites W2041004975 @default.
W2774504611 cites W2053058447 @default.
W2774504611 cites W2055293963 @default.
W2774504611 cites W2058401322 @default.
W2774504611 cites W2063176693 @default.
W2774504611 cites W2072923332 @default.
W2774504611 cites W2091344072 @default.
W2774504611 cites W2095211759 @default.
W2774504611 cites W2105438671 @default.
W2774504611 cites W2114458810 @default.
W2774504611 cites W2119267658 @default.
W2774504611 cites W2143228017 @default.
W2774504611 cites W2177090717 @default.
W2774504611 cites W2182895026 @default.
W2774504611 cites W2190453002 @default.
W2774504611 cites W2199571547 @default.
W2774504611 cites W2217973202 @default.
W2774504611 cites W2230005047 @default.
W2774504611 cites W2237936252 @default.
W2774504611 cites W2255527900 @default.
W2774504611 cites W2261647439 @default.
W2774504611 cites W2281476138 @default.
W2774504611 cites W2297449570 @default.
W2774504611 cites W2317203984 @default.
W2774504611 cites W2326784505 @default.
W2774504611 cites W2330104039 @default.
W2774504611 cites W2334121799 @default.
W2774504611 cites W2343174359 @default.
W2774504611 cites W2343818432 @default.
W2774504611 cites W2403466016 @default.
W2774504611 cites W2461017794 @default.
W2774504611 cites W2464700870 @default.
W2774504611 cites W2466565622 @default.
W2774504611 cites W2470174903 @default.
W2774504611 cites W2471580804 @default.
W2774504611 cites W2496743664 @default.
W2774504611 cites W2509544755 @default.
W2774504611 cites W2527402567 @default.
W2774504611 cites W2530644991 @default.
W2774504611 cites W2551433596 @default.
W2774504611 cites W2580253761 @default.
W2774504611 cites W2591636749 @default.
W2774504611 cites W2593625556 @default.
W2774504611 cites W2602974249 @default.
W2774504611 cites W2606267069 @default.
W2774504611 cites W2608719355 @default.
W2774504611 cites W2617722998 @default.
W2774504611 cites W2618210612 @default.
W2774504611 cites W2684778246 @default.
W2774504611 cites W2734481087 @default.
W2774504611 cites W2743685339 @default.
W2774504611 cites W2744227202 @default.
W2774504611 cites W4248179938 @default.
W2774504611 doi "https://doi.org/10.1021/acssuschemeng.7b02935" @default.
W2774504611 hasPublicationYear "2017" @default.
W2774504611 type Work @default.
W2774504611 sameAs 2774504611 @default.
W2774504611 citedByCount "58" @default.
W2774504611 countsByYear W27745046112018 @default.
W2774504611 countsByYear W27745046112019 @default.
W2774504611 countsByYear W27745046112020 @default.
W2774504611 countsByYear W27745046112021 @default.
W2774504611 countsByYear W27745046112022 @default.
W2774504611 countsByYear W27745046112023 @default.
W2774504611 crossrefType "journal-article" @default.
W2774504611 hasAuthorship W2774504611A5008267939 @default.
W2774504611 hasAuthorship W2774504611A5008668835 @default.
W2774504611 hasAuthorship W2774504611A5018244700 @default.
W2774504611 hasAuthorship W2774504611A5034581450 @default.
W2774504611 hasAuthorship W2774504611A5035062625 @default.
W2774504611 hasAuthorship W2774504611A5054719997 @default.
W2774504611 hasAuthorship W2774504611A5090258117 @default.
W2774504611 hasConcept C127413603 @default.
W2774504611 hasConcept C138631740 @default.
W2774504611 hasConcept C147789679 @default.
W2774504611 hasConcept C155672457 @default.
W2774504611 hasConcept C161790260 @default.