SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3145859260> ?p ?o ?g. }

Showing items 1 to 100 of ±190 with 100 items per page.

W3145859260 endingPage "106046" @default.
W3145859260 startingPage "106046" @default.
W3145859260 abstract "Nature is abundant with multi-functional and efficient catalysts such as redox enzymes which scientists wish to emulate with synthetic catalysts. One approach is to tune molecular catalysts through metal-organic ligands but there are grand challenges of molecular catalysts for real applications in energy field. Here we demonstrate a robust inorganic construct based on metal-metal oxide-carbon triple junction nanostructures (ZrO2/Pd/carbon) that mimics the functions of enzymes for highly efficient proton transport. The metal oxide tunes the local acidic environment of the metal and improves its ability for proton transport, efficient adsorption of substrate, and accelerated electron transfer. Using electrocatalytic hydrogenation (ECH) of benzaldehyde as a model reaction, we show that the intrinsic activity of the metal toward hydrogenation reaction is improved by over 200 % on the triple junction nanostructured catalysts. This study demonstrates the potential of rational design of multicomponent nanostructured catalysts to achieve enzyme like properties in synthetic catalysts." @default.
W3145859260 created "2021-04-13" @default.
W3145859260 creator A5000404278 @default.
W3145859260 creator A5038051103 @default.
W3145859260 creator A5051053074 @default.
W3145859260 creator A5058370790 @default.
W3145859260 creator A5059060420 @default.
W3145859260 creator A5066102428 @default.
W3145859260 creator A5069002856 @default.
W3145859260 creator A5071198339 @default.
W3145859260 creator A5076133961 @default.
W3145859260 creator A5076345724 @default.
W3145859260 creator A5078542744 @default.
W3145859260 creator A5081958813 @default.
W3145859260 creator A5083576671 @default.
W3145859260 creator A5083659970 @default.
W3145859260 creator A5085056463 @default.
W3145859260 creator A5090596598 @default.
W3145859260 date "2021-08-01" @default.
W3145859260 modified "2023-10-01" @default.
W3145859260 title "Tuning proton transfer and catalytic properties in triple junction nanostructured catalyts" @default.
W3145859260 cites W1532687164 @default.
W3145859260 cites W1966097733 @default.
W3145859260 cites W1980289863 @default.
W3145859260 cites W1981792803 @default.
W3145859260 cites W1982939640 @default.
W3145859260 cites W1984764545 @default.
W3145859260 cites W1990614706 @default.
W3145859260 cites W1998985492 @default.
W3145859260 cites W2004837355 @default.
W3145859260 cites W2005839737 @default.
W3145859260 cites W2005872431 @default.
W3145859260 cites W2006003351 @default.
W3145859260 cites W2008686504 @default.
W3145859260 cites W2023897739 @default.
W3145859260 cites W2027197274 @default.
W3145859260 cites W2030393295 @default.
W3145859260 cites W2033270806 @default.
W3145859260 cites W2046775134 @default.
W3145859260 cites W2051018215 @default.
W3145859260 cites W2055670737 @default.
W3145859260 cites W2057378377 @default.
W3145859260 cites W2062189630 @default.
W3145859260 cites W2065487764 @default.
W3145859260 cites W2072736806 @default.
W3145859260 cites W2073343466 @default.
W3145859260 cites W2078269369 @default.
W3145859260 cites W2084264734 @default.
W3145859260 cites W2086493752 @default.
W3145859260 cites W2094601805 @default.
W3145859260 cites W2095288125 @default.
W3145859260 cites W2109664124 @default.
W3145859260 cites W2154929505 @default.
W3145859260 cites W2162191494 @default.
W3145859260 cites W2169574440 @default.
W3145859260 cites W2196570979 @default.
W3145859260 cites W2265047766 @default.
W3145859260 cites W2316003986 @default.
W3145859260 cites W2328296760 @default.
W3145859260 cites W2335489505 @default.
W3145859260 cites W2337693075 @default.
W3145859260 cites W2462251503 @default.
W3145859260 cites W2466208836 @default.
W3145859260 cites W2507249577 @default.
W3145859260 cites W2514156026 @default.
W3145859260 cites W2517384551 @default.
W3145859260 cites W2531985189 @default.
W3145859260 cites W2616398275 @default.
W3145859260 cites W2737995898 @default.
W3145859260 cites W2738824626 @default.
W3145859260 cites W2750651112 @default.
W3145859260 cites W2756181870 @default.
W3145859260 cites W2771687843 @default.
W3145859260 cites W2774418387 @default.
W3145859260 cites W2788759813 @default.
W3145859260 cites W2888614697 @default.
W3145859260 cites W2889523741 @default.
W3145859260 cites W2893121818 @default.
W3145859260 cites W2899516708 @default.
W3145859260 cites W2903520983 @default.
W3145859260 cites W2904956365 @default.
W3145859260 cites W2906052190 @default.
W3145859260 cites W2914299958 @default.
W3145859260 cites W2919634015 @default.
W3145859260 cites W2943897925 @default.
W3145859260 cites W2946953255 @default.
W3145859260 cites W2954223598 @default.
W3145859260 cites W2959971327 @default.
W3145859260 cites W2973941310 @default.
W3145859260 cites W2982034149 @default.
W3145859260 cites W2982466001 @default.
W3145859260 cites W2984736004 @default.
W3145859260 cites W2996780334 @default.
W3145859260 cites W2999838212 @default.
W3145859260 cites W3030513822 @default.
W3145859260 cites W3048799828 @default.
W3145859260 cites W4230133613 @default.
W3145859260 doi "https://doi.org/10.1016/j.nanoen.2021.106046" @default.