SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2899075509> ?p ?o ?g. }

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

W2899075509 endingPage "242" @default.
W2899075509 startingPage "231" @default.
W2899075509 abstract "The existing literature suggests it is particularly difficult to access the catalytically relevant, and relatively complex, intermetallic γ-brass crystal structure through traditional nanoparticle (NP) synthesis techniques. We introduce a simple and rational approach to access this phase in M-Zn (M = Pd, Cu, Ni) systems as silica-supported single-phase nanocrystals. This hybrid approach involves the initial synthesis of supported M/SiO2 through traditional approaches (dry impregnation and strong electrostatic adsorption) followed by heating to high temperatures in the presence of a stoichiometric amount of metallic Zn in an evacuated closed system for several hours. We demonstrate the generality of this method with three different catalytically important bimetallic systems: Pd-Zn, Ni-Zn and Cu-Zn. Of these three, Pd-Zn is by the far the most popular in terms of catalytic applications and yields the smallest particle size (∼8 nm). We tested the influence of various synthesis parameters on phase purity and particle size distribution in case of the synthesized γ-brass Pd-Zn/SiO2 supported catalysts and provide general guidelines towards optimization of synthesis. Upon transformation of Pd/SiO2 to γ-brass Pd-Zn/SiO2, a precipitous drop in CO adsorption and a 25 kJ/mol increase in the ethylene hydrogenation barrier is observed, indicating the catalytic active sites are significantly modified as a result of alloying. We anticipate these catalysts may find applications in various Pd-catalyzed chemistries." @default.
W2899075509 created "2018-11-09" @default.
W2899075509 creator A5001901724 @default.
W2899075509 creator A5019171835 @default.
W2899075509 creator A5053714805 @default.
W2899075509 creator A5063437013 @default.
W2899075509 date "2019-08-01" @default.
W2899075509 modified "2023-10-17" @default.
W2899075509 title "Generalized approach for the synthesis of silica supported Pd-Zn, Cu-Zn and Ni-Zn gamma brass phase nanoparticles" @default.
W2899075509 cites W148446014 @default.
W2899075509 cites W1964714617 @default.
W2899075509 cites W1974656180 @default.
W2899075509 cites W1977980960 @default.
W2899075509 cites W1978885192 @default.
W2899075509 cites W1979875820 @default.
W2899075509 cites W1981635493 @default.
W2899075509 cites W1981969396 @default.
W2899075509 cites W1986436630 @default.
W2899075509 cites W1987944837 @default.
W2899075509 cites W1992678108 @default.
W2899075509 cites W1994156797 @default.
W2899075509 cites W2001742159 @default.
W2899075509 cites W2007914670 @default.
W2899075509 cites W2008359230 @default.
W2899075509 cites W2016243487 @default.
W2899075509 cites W2016366655 @default.
W2899075509 cites W2017360159 @default.
W2899075509 cites W2020866202 @default.
W2899075509 cites W2021161679 @default.
W2899075509 cites W2022875875 @default.
W2899075509 cites W2030182718 @default.
W2899075509 cites W2030537149 @default.
W2899075509 cites W2031381041 @default.
W2899075509 cites W2034023820 @default.
W2899075509 cites W2034275169 @default.
W2899075509 cites W2034785181 @default.
W2899075509 cites W2035110998 @default.
W2899075509 cites W2035783679 @default.
W2899075509 cites W2039922946 @default.
W2899075509 cites W2044175490 @default.
W2899075509 cites W2047708749 @default.
W2899075509 cites W2048497740 @default.
W2899075509 cites W2050289302 @default.
W2899075509 cites W2051259915 @default.
W2899075509 cites W2056456070 @default.
W2899075509 cites W2060363249 @default.
W2899075509 cites W2065242232 @default.
W2899075509 cites W2070227796 @default.
W2899075509 cites W2070629885 @default.
W2899075509 cites W2072088124 @default.
W2899075509 cites W2072673560 @default.
W2899075509 cites W2079060954 @default.
W2899075509 cites W2079974266 @default.
W2899075509 cites W2081435761 @default.
W2899075509 cites W2089984078 @default.
W2899075509 cites W2090443936 @default.
W2899075509 cites W2091920546 @default.
W2899075509 cites W2100936636 @default.
W2899075509 cites W2106171887 @default.
W2899075509 cites W2134716155 @default.
W2899075509 cites W2158989809 @default.
W2899075509 cites W2159216007 @default.
W2899075509 cites W2167279371 @default.
W2899075509 cites W2282681552 @default.
W2899075509 cites W2283651479 @default.
W2899075509 cites W2330535382 @default.
W2899075509 cites W2342255934 @default.
W2899075509 cites W2538704048 @default.
W2899075509 cites W2554708509 @default.
W2899075509 cites W2555098236 @default.
W2899075509 cites W2560097265 @default.
W2899075509 cites W2573612361 @default.
W2899075509 cites W2607341099 @default.
W2899075509 cites W2611833748 @default.
W2899075509 cites W2613910893 @default.
W2899075509 cites W2617935400 @default.
W2899075509 cites W2766384066 @default.
W2899075509 cites W2771693706 @default.
W2899075509 cites W2786405434 @default.
W2899075509 cites W2789564923 @default.
W2899075509 cites W2791644468 @default.
W2899075509 cites W2804632655 @default.
W2899075509 cites W296644680 @default.
W2899075509 doi "https://doi.org/10.1016/j.cattod.2018.10.050" @default.
W2899075509 hasPublicationYear "2019" @default.
W2899075509 type Work @default.
W2899075509 sameAs 2899075509 @default.
W2899075509 citedByCount "7" @default.
W2899075509 countsByYear W28990755092020 @default.
W2899075509 countsByYear W28990755092021 @default.
W2899075509 countsByYear W28990755092022 @default.
W2899075509 countsByYear W28990755092023 @default.
W2899075509 crossrefType "journal-article" @default.
W2899075509 hasAuthorship W2899075509A5001901724 @default.
W2899075509 hasAuthorship W2899075509A5019171835 @default.
W2899075509 hasAuthorship W2899075509A5053714805 @default.
W2899075509 hasAuthorship W2899075509A5063437013 @default.
W2899075509 hasBestOaLocation W28990755091 @default.